Deposition of solid semiconductor compositions and novel semiconductor materials

ABSTRACT

Solid layer semiconductor compositions are deposited by the simultaneous sputtering from a sputter target and electrically discharge a reacting gas preferably by application of an RF potential. Preferably, the method is used to make solid solution layers and most desirably solid solution epitaxial layers of at least two semiconductor materials. The method may be used to make novel metastable compositions such as (GaAs) 1   -x  Si x , (GaAs) 1   -x  Ge x , (InSb) 1   -x  Si x , (InSb) 1   -x  Ge x , (InAs) 1   -x  Si x  and (InAs) 1   -x  Ge x  (where x is a number greater than about 0.01, and x + (1-x) = 1, and Ga x  As y  Si z , Ga x  As y  Ge z , In x  Sb y  Si z , In x  Sb y  Ge z , In x  As y  Si z , In x  As y  Ge z  and In x  Sb y  As z  (where x, y and z are numbers greater than about 0.01, and x + y + z = 1).

FIELD OF THE INVENTION

The present invention relats to the making of semiconductor devices and particularly semiconductor devices with electrical parameters intermediate or outside the range of those imparted by conventional semiconductor materials.

BACKGROUND OF THE INVENTION

The ability to vary the parameters such as the energy bandgap, carrier mobility, and thermal conductivity of semiconductor materials is crucial to the making of certain semiconductors devices. Actually this involves the making of new semiconductor materials. Devices such as infrared filters and detectors, visible and infrared emitting diodes and heterojunction devices with certain capabilities require semiconductor compositions with properties intermediate or outside the range of conventional semiconductor materials. A method used to achieve these non-conventional properties is by forming a solid solution of two or more semiconductor materials.

However, many alloyed semiconductor materials which are of considerable interest for making devices have components which are not readily miscible or are essentially immiscible in each other. Annealing for months or longer is required to achieve some measure of equilibrium with certain semiconductor materials and certain composition ranges of certain semiconductor materials. For example, InAS_(x) Sb₁ _(-x) alloys, which are sensitive to radiation between 3-12 μm and are useful in infrared emitting diodes and detectors, take about three months to anneal, see Woolley, J. C. and Smith, B. A., Proc. Phys. Soc., 72, 214 (1958). Similarly Ga_(x) In₁ _(-x) Sb alloys require an annealing time of eight (8) weeks to achieve substantial equilibrium, see Woolley, J. C. and Smith, B. A., Proc. Phys. Soc., 72, 214 (1958).

Numerous techniques have been utilized experimentally to achieve miscibility more rapidly with certain compositions and ranges of compositions. In bulk materials, directional freezing has, for example, been partly successful in alloying some compositions of InAs_(x) Sb₁ _(-x), see Woolley, J. C. and Warner, J., J. Electrochem. Soc. 111, 1142 (1964). Zone recrystallization of InAs_(x) Sb₁ _(-x) alloys has also achieved a measure of success, although homogeneous compositions in the range 0.5 < x < 0.8 have been difficult to obtain, see Woolley, J. C. and Warner, J., J. Electrochem. Soc. 111, 1142 (1964). Quenching and Czochralski methods have also been used to produce semiconductor alloys, see Hilsum, C., "Proc. of the International Conference on the Physics of semiconductors", p. 1127, Dunod, Paris (1964), and Sirota, N. N. and Bolvanovich, E. I., Dokl. Akad, Nauk B.S.S.R. 11, 593 (1967).

Thin film techniques have also been able to extend the miscibility of certain compositions. For example, vapor quenching of metals, see Mader, S. in The Use of Thin Films in Physical Investigations, ed. J. C. Anderson, 1966, Academic Press, p. 433, splat cooling of Ga in GaSb, see Duwez, P., Willens, R. H. and Kelment, W. Jr., J. Appl. Phys., 31, 1500 (1960), and flash evaporation of several III-V Group alloys including (Ga, In), (As, P) and GaSb_(x) P₁ _(-x), see Richards, J. L., in The Use of Thin Films in Physical Investigations, ed. J. C. Anderson, 1966, Academic Press, p. 416, have been found to produce homogeneous alloy layers in limited composition ranges between components which are not readily miscible in bulk form. These layers, however, are usually amorphous or polycrystalline, rather than epitaxial.

Formation of epitaxial layers is especially important where the electrical characteristics of the desired device are related to semiconductor parameters, such as carrier mobility, which are defect sensitive. No difficulty has been encountered in preparing alloyed layers of the various semiconductor compositions by epitaxial techniques, e.g. chemical vapor deposition and liquid phase epitaxy, when miscibility of the components is readily achieved in bulk form. However, with other semiconductor components where miscibility is limited in bulk, chemical vapor deposition and liquid phase epitaxy produce epitaxial films of only limited miscibility, see Stringfellow, G. B. and Greene, P. E., J. Electrochem. Soc., 118, 805 (1971).

The present invention overcomes these limitations and shortcomings. It provides a way of readily making substantially homogeneous compositions of previously repoted immiscible, slowly miscible or partially miscible semiconductor component materials. Moreover, the invention provides a way of producing these compositions, some of which are known and some of which are novel, in epitaxial layers.

SUMMARY OF THE INVENTION

A method is provided for depositing a solid layer semiconductor composition on a substrate. Materials for formation of the semiconductor composition are simultaneously sputtered from a sputter target and electrically discharge reacted from a reactive gas preferably by application of an RF potential.

Preferably, the method is used to epitaxially grow a substantially homogeneous layer of at least two semiconductor materials. The steps include forming at least one sputter target containing at least a first semiconductor component material, disposing the formed sputter target and a substrate prepared for epitaxial growth in a spaced relation in a partial vacuum chamber, introducing into the vacuum chamber at least one reactive gas composition containing at least a second semiconductor material, depositing the first semiconductor component material on the substrate by sputtering, and simultaneously reacting the reactive gas by electrical discharge and depositing the second semiconductor component material on the substrate. The sputter targets and reactive gases containing all component materials necessary for forming either directly, or by chemical reaction with another gas or target material, the semiconductor materials desired in the miscible semiconductor layer.

The method may also be utilized to make sputter targets of two or more semiconductor compositions so that the compositions may be simultaneously sputtered.

Moreover, it has been found that the method can readily form substantially homogeneous compositions of novel metastable semiconductor materials previously reported essentially immiscible or partially miscible. In addition, other novel semiconductor materials have been produced by the present invention.

Other details, objects and advantages of the invention will become apparent as the following description of the present preferred embodiments thereof and present preferred means for practicing the same proceeds.

BRIEF DESCRIPTION OF THE DRAWINGS

In the accompanying drawings the present preferred embodiments of the invention and the present preferred means for practicing the same are shown, in which:

FIG. 1 is a cross-sectional view in elevation, with portions shown schematically, of an electrical discharge -- sputtering apparatus suitable for performing and making the present invention;

FIG. 2 is a schematic of the equivalent electrical circuit for the sputtering operation of the apparatus of FIG. 1;

FIG. 3 is a graph showing the change in energy gap and lattice spacing with change in percentage composition and with change in partial pressure of silane gas of gallium arsenide and silicon in a solid layer of the present invention;

FIG. 4 is a graph showing the change in energy gap with change in percentage composition of germanium and silicon in a solid layer; and

FIG. 5 is a graph showing the change in energy gap with change in percentage composition of indium antimonide and indium arsenide.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to FIG. 1, apparatus is shown for growing a solid layer preferably of two or more semiconductor materials in accordance with the present invention. Hermetically sealed chamber 10 is comprised of cylindrical side surfaces 11 of non-porous materials such as metal, glass or recrystallized ceramic typically vertically positioned, and circular end caps 12 and 13 typically of an electrically conductive material such as low carbon steel or aluminum typically horizontally positioned. Cylindrical side surfaces 11 are hermetically sealed to the end caps 12 and 13 by standard L-shaped seals 14 to provide for ease in disassembly of the chamber 10 for disposition and removal of apparatus to and from the chamber.

A vacuum port 15 is provided in end cap 12 at the center. Vacuum port 15 is hermetically sealed to conduit 16 by flange 17. The conduit 16 communicates with conduit standard oil diffusion, vacuum pump (not shown) to enable a partial vacuum to be established and maintained in chamber 10 after it is hermetically sealed. Also positioned in conduit 16 between chamber 10 and the vacuum pump is a standard liquid nitrogen cold trap (not shown) to remove volatile reaction products formed by the electrical discharge reaction of the reactive gas as hereinafter described.

Disposed in the chamber 10 is ground electrode 18. Ground electrode 18 is horizontally mounted by a plurality of vertical extending rods 19 which have end portions 20 threaded into threaded openings 21 in end cap 12. Rods 19 also have threaded end portions 22 extending through threaded nuts 23 thereon to rigidly fasten and support ground electrode 18. Rods 19 also electrically connect ground electrode 18 with end cap 12 which is in turn electrically grounded as indicated.

Ground electrode 18 is annularly shaped with a rectangular slot 24 at its center. Disposed in the rectangular slot 24 is substrate holder assembly 25 of rectangular shape supported by rods 26 thereof. Rods 26 are electrically coupled to a power source (not shown) through openings 27 in end cap 12. Rods 26 are supported in openings 27 by insulating grommets 28 which also hermetically seal and electrically insulate the rods 26 from the end cap 12. Sample holder assembly 25 also includes horizontally positioned substrate holder 29 of rectangular shape which is fastened to the ends of rods 26 by cap screws 30. Substrate holder 29 has a raised thin central portion (e.g. 5 mils in thickness) and a thick L-shaped periphery portion (e.g. 60 mils in thickness) to provide a high electrical resistance region at the central portion where substrate 33 is supported. Assembly 25 also includes mechanically bias means 31 fastened to the substrate holder 29 by cap screws 32. By this arrangement substrate 33 can be mounted in the assembly 25 by mechanically biasing the bias means 31 against the substrate holder 29. The substrate holder 29 is electrically connected via rods 26 to the exterior of chamber 10 while being electrically insulated from end cap 12.

Also disposed within the chamber 10 centrally through end cap 13 is sputtering electrode assembly 34. Electrode assembly 34 is comprised of circular target assembly 35 mounted centrally of hollow backing plate 37 and provided with O-ring seals 45A to maintain both hermetic and water seals between plate 37 and target assembly 35. Target assembly 35 consists of a circular sputter electrode 36 having a central threaded integral stem 36A to provide for mounting by threading into insulator core 38 positioned centrally of and insulated from backing plate 37. Target assembly 35 also includes sputter target 39 which overlies electrode 36. Target 39 consists of material, preferably one or more semiconductor materials, desired to be deposited as a layer on substrate 33. The thickness of target 39 is not important to the sputtering operation but is typically about one-eighth to one-fourth inch in thickness.

Electrode assembly 34 is fastened to but electrically insulated from end cap 13 by threading cap screws 40A through backing plate 37 into circular metal cap 40 to clamp fasten to insulator ring 41. Insulator ring 41 is centrally seated in groove 41A formed in end cap 13 and backing plate 37 and hermetically sealed to cap 13 and plate 37 by O-ring seal 45. Insulator ring 41 is sealed with and fastened to end cap 13 by clamping ring 42 which seats at the outer periphery of ring 41 and cap screws 42A extending through ring 42 and threading into cap 13.

Cooling of target assembly 35 is accomplished by water circulated through the passageways formed by sputter electrode 36, backing plate 37 and O-ring seals 45A. The water is fed to and exited from the assembly through conduits 43A and 43B, respectively, which slip through cap 40 and seat in and are welded to the upper portion of backing plate 37.

Around electrode assembly 34 is provided an annular shield 44 which is electrically insulated from assembly 34. Shield 44 is fastened to end cap 13 by cap screws 44A which extend through shield 44 and thread into end cap 13 and is grounded through end cap 13. Shield 44 extends downwardly from cap 13 to have its end portion flush with the outside surface of sputter target 39. By this arrangement, shield 44 suppresses discharge on the backside of electrode assembly 34 and thus prevents sputtering of metal from the electrode assembly. The distance between shield 44 and sputter electrode assembly 34 is critical to suppress sputtering, a spacing of approximately 0.5 centimeter being suitable. The distance between sputter target 39 and ground electrode 18 is also critical to the deposition rate by sputtering as well as electrical discharge and preferably maintained at a distance of about 2.0 centimeters.

Also disposed within chamber 10 is shutter assembly 46. Assembly 46 includes a shutter 47 disposed horizontally between ground electrode 18 and sputter target 39. Shutter 47 is fastened to rod 48 which is positioned off center and extends upwardly through end cap 12 and ground electrode 18. By this arrangement shutter assembly 46 is able to pivot shutter 47 from its position between electrodes 18 and target 39 to expose substrate 33 to the influx of the target material and the reactive gas material.

Also attached to chamber 10 at port 49 is a gas feed assembly 50 to provide for gases necessary to electrical reaction and sputtering in the chamber 10. Feed assembly 50 includes a mixer means 51 hermetically sealed to end cap 12 over port 49 by flange 52. Mounted for inlet into mixer 51 through conduit 53 and valve 54 from pressurized vessel 55 is a gas such as argon suitable for use to support the ionization for sputtering. Also attached for axial inlet to mixer 51 is conduit 56 with 3-way valve 57. In turn connected to inlets of three-way valve 57 are conduits 58 and 59 to pressurized vessels 60 and 61, respectively. Also attached to pressurized vessel 61 opposite conduit 59 is conduit 62 which is in turn attached through valve 63 to pressurized vessel 64. By this arrangement, gas feed assembly 50 can inlet to chamber 10 a mixture of ionization gas suitable for the sputtering and a reaction gas appropriate for electrical discharge reaction. Reaction gases which are in the gaseous form at the pressures involved are imputted to the system by disposition in vessel 60. Reaction gases which are in liquid form at the pressures involved and must be inputted to the system as a vapor in a carrier gas are disposed in chamber 61; pressurized chamber 64 contains a suitable carrier gas such as argon which is bubbled through the liquid disposed in vessel 61 by opening valve 63.

Also applied to sputter electrode 36 through contact 45, cap 40, backing plate 37 is an electric potential from a power supply 65 suitable to provide both sputtering of target 39 and electrical discharge reaction of the reactive gas. The potential will vary with the composition of target 39 and the reactive gas. Typically, the power supply is an RF source of a voltage of 1,000 to 3,500 volts at a frequency in excess of a few MHz (e.g. 13.56MHz) and a power of 0.5 to 5 kilowatts. No DC potential will build up if the frequency of the applied voltage is too low because enough ions reach the target surface during the negative half of each cycle to neutralize the negative surface charge. The lower the frequency the higher the voltage must be to provide the ionization needed for sputtering. At higher frequencies, fewer ions reach the target surace in one cycle, in turn increasing the negative bias and increasing the field across the dark space (as hereinafter described) and increasing the sputtering rates. Capacitor 66 is also provided between the power supply and the sputter electrode to prevent a DC current flow in the circuit and thus allows build up of a negative bias at the sputter target 39.

The optimum power supply is also dependent on the pressure of the ionizing gas (e.g. argon) and reaction gas mixture in the chamber and the geometry of the system. Typically, the pressure of the mixture is 1 to 5 millitorr. RF power supplies of 1 to 5 kilowatt have been used successfully with the higher powers related to the larger area electrodes. Higher deposition rates are also obtained with higher power supplies so that the power supply is one of the principle regulatory parameters of the system along with the gas pressure in chamber 10.

In any event, the electric potential is applied across the space between target 39 and electrode 18 by grounding electrode 18 through end cap 12. Electrode 18 is much larger, typically 14 inches in diameter, than target 39, which is typically 4 inches in diameter, to provide the desired bias in ion bombardment so that sputter deposition occurs at the substrate.

Another regulatory parameter of both the deposition rate and the orientation behavior of the deposited layer is the temperature of the substrate. The heating is achieved by passing a high electric current through substrate holder 29 by applying a potential through rods 26. The thin central portion of holder 29 provides a high resistance region where heating of the substrates can be accomplished. Highest deposition rates are achieved at lowest substrate temperature. Thus the temperature of the substrate is regulated to strike a balance between deposition rates and the nature of the growth desired.

Heating of the substrate is primarily important to determine the orientation behavior of the grown layer. At lower temperature, typically less than about 300°C, the layer formed on the substrate is amorphous. Heating is typically to above 300°C to provide polycrystalline growth and typically to above 500°C to provide highly oriented, epitaxial growth. The exact temperature appropriate for polycrystalline and epitaxial growth will vary with the substrate material and the crystal orientation of the substrate used. Typically for a gallium arsenide substrate, with the surface in a (1,1,1) orientation polycrystalline growth is achieved above 300°C and epitaxial growth is achieved between 530° and 650°C. Temperatures between 530 and 650°C can be obtained with electric currents in the range of 6 volt -- 200 amp. Higher temperatures of approximately 700° to 800°C may be needed for epitaxial growth on silicon substrates; however, this temperature is still substantially below the temperatures required for epitaxial growth by pyrolysis (i.e. about 1100° - 1200°C).

It should also be noted that the structure of the epitaxial layer is also dependent on the crystal structure and crystal orientation of the substrate as is well known in the art. For an epitaxial layer, a single crystal substrate should be used which provides a reasonably close match to the lattice structure and lattice dimensions of the layer to be grown. Further, the substrate should be cleaned, lapped and polished prior to deposition to minimize defects in the epitaxially grown layer. It is also well known generally in epitaxy technology that the crystal orientation of the surface of the substrate on which the epitaxial layer is grown is important to the growth rate of the layer. It should also be noted in this connection the epitaxial structure may be lost and strains may be introduced in the layer if the layer is substantially thick because of the difference in lattice spacings between the substrate and the epitaxial layer.

Referring to FIG. 2, the operation of the invention is described by reference to the equivalent circuit for the sputter deposition and discharge reaction in accordance with the present invention. In sputtering, a glow space is formed between the target 39 and electrode 18 by oscillating electrons in the electric field so that they make elastic collisions with gas atoms to cause ionization of the gas. Dark spaces form between the electrode and the glow space. The potential difference between the electrode, which is to a first order capacitive, is taken almost entirely across the dark spaces and is represented by capacitors, the glow space being at a near-uniform potential. Further, due to the large difference in ion and electron mobilities, the glow space potential is always a higher potential than the electrode surfaces and rectifying action occurs at the glow space boundaries, represented by the diodes. Some ion conduction is directed to the walls and surfaces of chamber 10 and electrode 18 as well as the substrate holder 29 and substrate 33, as shown in FIG. 2, but some conduction is minimized by proper dimensioning of target 39 and electrode 18. See also Koenig and Maissel, IBM J. Res. Develop. 14, 168, (March, 1970), Logan, IBM J. Res. Develop. 14, 172, (March, 1970), Maissel, Jones and Standley, IBM J. Res. Develop. 14, 176, (March, 1970), Logan, Maddocks and Davidse IBM J. Res. Develop. 14, 182, (March, 1970), and Mazza, IBM J. Res. Develop. 14, 192, (March, 1970).

The reaction or decomposition of the reactive gas also occurs in the glow space. The oscillation of the electrons causing heating so that high temperatures generated within the gaseous molecules causes their reaction and decomposition to the deposited semiconductor material and a volatile gas or gases which are exhausted into the vacuum system and collected in the coldtrap described above. Again, this reaction and/or decomposition occurs at much lower temperatures than is necessary for pyrolytic decomposition, although the substrate is heated as above described to control the crystal structure of the grown layer.

In operation, a brief clean-up sputtering in argon or other suitable inert gas is first performed. A reactive gas, containing the semiconductor material, is then leaked into chamber 10 from gas feed assembly 50 mixed with argon or other inert gas to support sputtering. The shutter 46 is pivoted to expose the substrate 33 and the growth is then commenced by simultaneously sputtering the target material and electrically reacting the reactive gas. The relative percentages of the components in the deposited composition is controlled by adjusting the proportion of reactive gas to argon and the deposition rate. In this connection, it should be noted that both the deposition rate of the sputtered and reactive gas components are dependent on the applied voltage of power supply 65. Epitaxial growth is facilitated by the use of polished, cleaned and heated single crystal substrates which are reasonably well matched to the structure and lattice dimensions of the epitaxially grown layer.

The present invention is particularly useful in epitaxially growing a miscible solid layer of two or more semiconductor materials which were previously considered immiscible, or which were previously considered miscible only by long anneals. Such miscible layers are found to be metastable on heating to temperatures several hundred degrees above the growth temperature. In addition, growth can proceed at temperatures low enough to favor greatly extended solid solubility. Amorphous, polycrystalline and single crystal layers of IV--IV, III-V and II--VI semiconductor compounds can thus be epitaxially prepared relatively readily.

Table I furnishes examples of solid solution preparation using various alternatives for both the target composition and for the composition of the reactive gas. One of the important advantages of the method derives from the ease with which the reactive gas species, e.g., GeH₄, Bi(CH₃)₃, etc., can be decomposed in a confined electrical discharge allowing the freed metal component to combine with the elements transported by sputtering to form an intimately mixed substantially homogeneous composition at the substrate surface.

                                      TABLE I                                      __________________________________________________________________________     EXAMPLES OF SOLID SOLUTIONS AND PREPARATIVE                                    SPUTTER TARGETS AND REACTIVE GASES                                                            Sputter                                                                        Target               Energy Gap                                 Solid Solution Composition                                                                    Composition                                                                           Reactive Gas Composition                                                                     e.v. at rm. temp.                          __________________________________________________________________________     Si.sub.1.sub.-x Ge.sub.x.sup.(1)                                                              Si     GeH.sub.4 or Ge(CH.sub.3).sub.3                                                              1.08 to 0.66                               Ge.sub.1.sub.-x Si.sub.x.sup.(1)                                                              Ge     SiCl.sub.4 or SiH.sub.4                                                                      1.08 to 0.66                               (InSb).sub.1.sub.-x (InAs).sub.x.sup.(1)                                                      InSb   AsH.sub.3 & In(CH.sub.3).sub.3                                                               0.17 to 0.10 to 0.36                       (InAs).sub.1.sub.-x (InSb).sub.x.sup.(1)                                                      InAs   SbH.sub.3 & In(CH.sub.3).sub.3                                                               0.17 to 0.10 to 0.36                       (InSb).sub.1.sub.-x Bi.sub.x.sup.(1)                                                          InSb   Bi(CH.sub.3).sub.3                                                                           < 0.17                                     (InSb).sub.1.sub.-x Si.sub.x.sup.(1)                                                          InSb   SiH.sub.4 or SiCl.sub.4                                                                      0.17 to 1.08                               (InSb).sub.1.sub.-x Ge.sub.x.sup.(1)                                                          InSb   GeH.sub.4 or Ge(CH.sub.3).sub.3                                                              0.17 to 0.66                               (CdTe).sub.1.sub.-x Hg.sub.x.sup.(1)                                                          CdTe   Hg (vapor)    0.18 to 0 to 1.45                          (CdTe).sub.1.sub.-x (HgTe).sub.x.sup.(1)                                                      CdTe   Hg (vapor) & (C.sub.2 H.sub.5).sub.2                                                         0.18 to 0 to 1.45                          (PbTe).sub.1.sub.-x (SnTe).sub.x.sup.(1)                                                      PbTe   Sn(CH.sub.3).sub.4 & (C.sub.2 H.sub.5).sub.2                                                 0.25 to 0 to 0.22                          SiC            C      SiH.sub.4     ˜ 3.0                                __________________________________________________________________________      .sup.(1) Where x is a number greater than about 0.01 and x + (1-x) = 1   

As can be seen from Table I, a number of known semiconductor compositions are readily produced by the present method, which compositions were previously reported as only partially miscible or "slow to equilibrate," requiring long annealing times.

Referring to Table II, the present invention is also able to produce novel semiconductor compositions previously not known. Table II contains examples of compositions known and contemplated to be made by use of the present invention and is clearly not exhaustive.

                                      TABLE II                                     __________________________________________________________________________     EXAMPLES OF NOVEL SOLID SOLUTIONS AND                                          PREPARATIVE SPUTTER TARGETS AND REACTIVE GASES                                                  Sputter  Reactive                                                              Target   Gas                                                  Solid Solution Composition                                                                      Composition                                                                             Composition                                          __________________________________________________________________________     (GaAs).sub.1.sub.-x Si.sub.x.sup.(1)                                                            GaAs     SiH.sub.4 or SiCl.sub.4                              (GaAs).sub.1.sub.-x Ge.sub.x.sup.(1)                                                            GaAs     GeH.sub.4 or Ge(CH.sub.3).sub.3                      (GaSb).sub.1.sub.-x Si.sub.x.sup.(1)                                                            GaSb     SiH.sub.4 or SiCl.sub.4                              (GaSb).sub.1.sub.-x Ge.sub.x.sup.(1)                                                            GaSb     GeH.sub.4 or Ge(CH.sub.3).sub.4                      (GaP).sub.1.sub.-x Si.sub.x.sup. (1)                                                            GaP      SiH.sub.4 or SiCl.sub.4                              (GaP).sub.1.sub.-x Ge.sub.x.sup.(1)                                                             GaP      GeH.sub.4 or Ge(CH.sub.3).sub.3                      Ga.sub.x As.sub.y Si.sub.z.sup.(2)                                                              Ga or Si AsH.sub.3 & SiH.sub.4 or                                                       Ga(CH.sub.3).sub.3 & AsH.sub.3                       Ga.sub.x As.sub.y Ge.sub.z.sup.(2)                                                              Ga       AsH.sub.3 & GeH.sub.4                                Ga.sub.x Sb.sub.y Si.sub.z.sup.(2)                                                              Ga       Sb(CH.sub.3).sub.3 & SiH.sub.4                       Ga.sub.x Sb.sub.y Ge.sub.z.sup. (2)                                                             Ga       Sb(CH.sub.3).sub.3 & Ge(CH.sub.3).sub.3              Ga.sub.x P.sub.y Si.sub.z.sup.(2)                                                               Ga       PH.sub.3 & SiH.sub.4                                 Ga.sub.x P.sub.y Ge.sub.z.sup.(2)                                                               Ga       PH.sub.3 & GeH.sub.4                                 (GaAs).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                          GaAs     SiH.sub.4 & GeH.sub.4                                (GaSb).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                          GaSb     SiH.sub.4 & GeH.sub.4                                (GaP).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                           GaP      SiH.sub.4 & GeH.sub.4                                (BN).sub.1.sub.-x Si.sub.x.sup. (1)                                                             BN       SiH.sub.4 or SiCl.sub.4                              (AlN).sub.1.sub.-x Si.sub.x.sup.(1)                                                             AlN      SiH.sub.4 or SiCl.sub.4                              (GaN).sub.1.sub.-x Si.sub.x.sup.(1)                                                             GaN      SiH.sub.4 or SiCl.sub.4                              (InN).sub.1.sub.-x Si.sub.x.sup.(1)                                                             InN      SiH.sub.4 or SiCl.sub.4                              (BP).sub.1.sub.-x Si.sub.x.sup.(1)                                                              BP       SiH.sub.4 or SiCl.sub.4                              (AlP).sub.1.sub.-x Si.sub.x.sup.(1)                                                             AlP      SiH.sub.4 or SiCl.sub.4                              (AlSb).sub.1.sub.-x Si.sub.x.sup.(1)                                                            AlSb     SiH.sub.4 or SiCl.sub.4                              (InP).sub.1.sub.-x Si.sub.x.sup.(1)                                                             InP      SiH.sub. 4 or SiCl.sub.4                             (AlAs).sub.1.sub.-x Si.sub.x.sup.(1)                                                            AlAs     SiH.sub.4 or SiCl.sub.4                              (InAs).sub.1.sub.-x Si.sub.x.sup.(1)                                                            InAs     SiH.sub.4 or SiCl.sub.4                              (BN).sub.1.sub.-x Ge.sub.x.sup.(1)                                                              BN       GeH.sub.4 or Ge(CH.sub.3).sub.4                      (AlN).sub.1.sub.-x Ge.sub.x.sup.(1)                                                             AlN      GeH.sub.4 or Ge(CH.sub.3).sub.4                      (GaN).sub.1.sub.-x Ge.sub.x.sup.(1)                                                             GaN      GeH.sub.4 or Ge(CH.sub.3).sub.4                      (InN).sub.1.sub.-x Ge.sub.x.sup.(1)                                                             InN      GeH.sub.4 or Ge(CH.sub.3).sub.4                      (BP).sub.1.sub.-x Ge.sub.x.sup.(1)                                                              BP       GeH.sub.4 or Ge(CH.sub.3).sub.4                      (AlP).sub.1.sub.-x Ge.sub.x.sup.(1)                                                             AlP      GeH.sub.4 or Ge(CH.sub.3).sub.4                      (AlSb).sub.1.sub.-x Ge.sub.x.sup.(1)                                                            AlSb     GeH.sub.4 or Ge(CH.sub.3).sub.4                      (InP).sub.1.sub.-x Ge.sub.x.sup.(1)                                                             InP      GeH.sub.4 or Ge(CH.sub.3).sub.4                      (AlAs).sub.1.sub.-x Ge.sub.x.sup.(1)                                                            AlAs     GeH.sub.4 or Ge(CH.sub.3).sub.4                      (InAs).sub.1.sub.-x Ge.sub.x.sup.(1)                                                            InAs     GeH.sub.4 or Ge(CH.sub.3).sub.4                      (AlSb).sub.1.sub.-x Ge.sub.x.sup. (1)                                                           AlSb     GeH.sub.4 or Ge(CH.sub.3).sub.4                      (InSb).sub.1.sub.-x Si.sub.x.sup.(1)                                                            InSb     SiH.sub.4 or SiCl.sub.4                              (InSb).sub.1.sub.-x Ge.sub.x.sup.(1)                                                            InSb     GeH.sub.4 or Ge(CH.sub.3).sub.4                      (BN).sub.1.sub.-x Sn.sub.x.sup.(1)                                                              BN       Sn(CH.sub.3).sub.4                                   (AlN).sub.1.sub.-x Sn.sub.x.sup.(1)                                                             AlN      Sn(CH.sub.3).sub.4                                   (GaN).sub.1.sub.-x Sn.sub.x.sup.(1)                                                             GaN      Sn(CH.sub.3).sub.4                                   (InN).sub.1.sub.-x Sn.sub.x.sup.(1)                                                             InN      Sn(CH.sub.3).sub.4                                   (BP).sub.1.sub.-x Sn.sub.x.sup.(1)                                                              BP       Sn(CH.sub.3).sub.4                                   (AlP).sub.1.sub.-x Sn.sub.x.sup.(1)                                                             AlP      Sn(CH.sub.3).sub.4                                   (GaP).sub.1.sub.-x Sn.sub.x.sup.(1)                                                             GaP      Sn(CH.sub.3).sub.4                                   (InP).sub.1.sub.-x Sn.sub.x.sup.(1)                                                             InP      Sn(CH.sub.3).sub.4                                   (AlAs).sub.1.sub.-x Sn.sub.x.sup.(1)                                                            AlAs     Sn(CH.sub.3).sub.4                                   (GaAs).sub.1.sub.-x Sn.sub.x.sup.(1)                                                            GaAs     Sn(CH.sub.3).sub.4                                   (InAs).sub.1.sub.-x Sn.sub.x.sup.(1)                                                            InAs     Sn(CH.sub.3).sub.4                                   (AlSb).sub.1.sub.-x Sn.sub.x.sup.(1)                                                            AlSb     Sn(CH.sub.3).sub.4                                   (GaSb).sub.1.sub.-x Sn.sub.x.sup.(1)                                                            GaSb     Sn(CH.sub.3).sub.4                                   (InSb).sub.1.sub.-x  Sn.sub.x.sup. (1)                                                          InSb     Sn(CH.sub.3).sub.4                                   (BN).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                            BN       Sn(CH.sub.3).sub.4 & SiH.sub.4                       (AlN).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                           AlN      Sn(CH.sub.3).sub.4 & SiH.sub.4                       (GaN).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                           GaN      Sn(CH.sub.3).sub.4 & SiH.sub.4                       (InN).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                           InN      Sn(CH.sub.3).sub.4 & SiH.sub.4                       (BP).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                            BP       Sn(CH.sub.3).sub.4 & SiH.sub.4                       (AlP).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                           AlP      Sn(CH.sub.3).sub.4 & SiH.sub.4                       (GaP).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                           GaP      Sn(CH.sub.3).sub.4 & SiH.sub.4                       (InP).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                           InP      Sn(CH.sub.3).sub.4 & SiH.sub.4                       (AlAs).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                          AlAs     Sn(CH.sub.3).sub.4 & SiH.sub.4                       (GaAs).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                          GaAs     Sn(CH.sub.3).sub.4 & SiH.sub.4                       (AlSb).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                          AlSb     Sn(CH.sub. 3).sub.4 & SiH.sub.4                      (GaSb).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                          GaSb     Sn(CH.sub.3).sub.4 & SiH.sub.4                       (InSb).sub.x Sn.sub.y Si.sub.z.sup.(2)                                                          InSb     Sn(CH.sub.3).sub.4 & SiH.sub.4                       (BN).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                            BN       Sn(CH.sub.3).sub.4 & GeH.sub.4                       (AlN).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                           AlN      Sn(CH.sub.3).sub.4 & GeH.sub.4                       (GaN).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                           GaN      Sn(CH.sub.3).sub.4 & GeH.sub.4                       (InN).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                           InN      Sn(CH.sub.3).sub.4 & GeH.sub.4                       (BP).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                            BP       Sn(CH.sub.3).sub.4 & GeH.sub.4                       (AlP).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                           AlP      Sn(CH.sub.3).sub.4 & GeH.sub.4                       (GaP).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                           GaP      Sn(CH.sub.3).sub.4 & GeH.sub.4                       (InP).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                           InP      Sn(CH.sub.3).sub.4 & GeH.sub.4                       (AlAs).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                          AlAs     Sn(CH.sub.3).sub.4  & GeH.sub.4                      (GaAs).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                          GaAs     Sn(CH.sub.3).sub.4 & GeH.sub.4                       (AlSb).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                          AlSb     Sn(CH.sub.3).sub.4 & GeH.sub.4                       (GaSb).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                          GaSb     Sn(CH.sub.3).sub.4 & GeH.sub.4                       (InSb).sub.x Sn.sub.y Ge.sub.z.sup.(2)                                                          InSb     Sn(CH.sub.3).sub.4 & GeH.sub.4                       (BN).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                            BN       SiH.sub.4 & GeH.sub.4                                (AlN).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                           AlN      SiH.sub.4 & GeH.sub.4                                (GaN).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                           GaN      SiH.sub.4 & GeH.sub.4                                (InN).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                           InN      SiH.sub.4 & GeH.sub.4                                (BP).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                            BP       SiH.sub.4 & GeH.sub.4                                (AlP).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                           AlP      SiH.sub.4 & GeH.sub.4                                (AlSb).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                          AlSb     SiH.sub.4 & GeH.sub.4                                (InP).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                           InP      SiH.sub.4  & GeH.sub.4                               (AlAs).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                          AlAs     SiH.sub.4 & GeH.sub.4                                (InAs).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                          InAs     SiH.sub.4 & GeH.sub.4                                (InSb).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                          InSb     SiH.sub.4 & GeH.sub.4                                In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     In       AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     Ge       In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           B.sub.x N.sub.y Si.sub.z.sup.(2)                                                                Si       B.sub.2 H.sub.6 & N.sub.2                            Al.sub.x N.sub.y Si.sub.z.sup.(2)                                                               Al       N.sub.2 & SiH.sub.4                                  Ga.sub.x N.sub.y Si.sub.z.sup.(2)                                                               Si       Ga(CH.sub.3).sub.3 & N.sub.2                         In.sub.x N.sub.y Si.sub.z.sup.(2)                                                               In       SiH.sub.4 & N.sub.2                                  B.sub.x P.sub.y Si.sub.z.sup.(2)                                                                Si       B.sub.2 H.sub.6 & SiH.sub.4                          Al.sub.x P.sub.y Si.sub.z.sup.(2)                                                               Al       PH.sub.3 & SiH.sub. 4                                Al.sub.x Sb.sub.y Si.sub.z.sup.(2)                                                              Al       SbH.sub.3 & SiH.sub.4                                In.sub.x P.sub.y Si.sub.z.sup.(2)                                                               In       PH.sub.3 & SiH.sub.4                                 Al.sub.x As.sub.y Si.sub.z.sup.(2)                                                              Al       AsH.sub.3 & SiH.sub.4                                In.sub.x As.sub.y Si.sub.z.sup.(2)                                                              In       AsH.sub.3 & SiH.sub.4                                B.sub.x H.sub.y Ge.sub.z.sup.(2)                                                                Ge       B.sub.2 H.sub.6 & N.sub.2                            Al.sub.x N.sub.y Ge.sub.z.sup.(2)                                                               Al       N.sub.2 & GeH.sub.4                                  Ga.sub.x N.sub.y Ge.sub.z.sup.(2)                                                               Ga       N.sub.2 & GeH.sub.4                                  In.sub.x N.sub.y Ge.sub.z.sup.(2)                                                               Ge       In(CH.sub.3).sub.3 & N.sub.2                         B.sub.x P.sub.y Ge.sub.z.sup.(2)                                                                Ge       B.sub.2 H.sub.6 & PH.sub.3                           Al.sub.x P.sub.y Ge.sub.z.sup.(2)                                                               Ge       Al(CH.sub.3).sub.3 & PH.sub.3                        Al.sub.x Sb.sub.y Ge.sub.z.sup.(2)                                                              Al       SbH.sub.3 & GeH.sub.4                                In.sub.x P.sub.y Ge.sub.z.sup.(2)                                                               In       PH.sub.3 & GeH.sub. 4                                Al.sub.x As.sub.y Ge.sub.z.sup.(2)                                                              Al       AsH.sub.3 & GeH.sub.4                                In.sub.x As.sub.y Ge.sub.z.sup.(2)                                                              Al       SbH.sub.3 & GeH.sub.4                                Al.sub.x Sb.sub.y Ge.sub.z.sup.(2)                                                              Ge       Al(CH.sub.3).sub.3 & SbH.sub.3                       In.sub.x Sb.sub.y Si.sub.z.sup.(2)                                                              In       SbH.sub.3 & SiH.sub.4                                In.sub.x Sb.sub.y Ge.sub.z.sup.(2)                                                              Ge       In(CH.sub.3).sub.3 & SbH.sub.3                       B.sub.x N.sub.y Sn.sub.z.sup.(2)                                                                Sn       B.sub.2 H.sub.6 & N.sub.2                            Al.sub.x N.sub.y Sn.sub.z.sup.(2)                                                               Al       N.sub.2 & Sn(CH.sub.3).sub.4                         Ga.sub.x N.sub.y Sn.sub.z.sup.(2)                                                               Sn       Ga(CH.sub.3).sub.3 & N.sub.2                         In.sub.x N.sub.y Sn.sub.z.sup.(2)                                                               In       N.sub.2 & Sn(CH.sub.3).sub.4                         B.sub.x P.sub.y Sn.sub.z.sup.(2)                                                                B        PH.sub.3 & Sn(CH.sub.3).sub.4                        Al.sub.x P.sub.y Sn.sub.z.sup.(2)                                                               Al       PH.sub.3 & Sn(CH.sub.3).sub.4                        Ga.sub.x P.sub.y Sn.sub. z.sup.(2)                                                              Sn       Ga(CH.sub.3).sub.3 & PH.sub.3                        In.sub.x P.sub.y Sn.sub.z.sup.(2)                                                               In       PH.sub.3 & Sn(CH.sub.3).sub.4                        Al.sub.x As.sub.y Sn.sub.z.sup.(2)                                                              Al       AsH.sub.3 & Sn(CH.sub.3).sub.4                       Ga.sub.x As.sub.y Sn.sub.z.sup.(2)                                                              Ga       AsH.sub.3 & Sn(CH.sub.3).sub.4                       In.sub.x As.sub.y Sn.sub.z.sup.(2)                                                              Sn       In(CH.sub.3).sub.3 & AsH.sub.3                       Al.sub.x Sb.sub.y Sn.sub.z.sup.(2)                                                              Al       SbH.sub.3 & Sn(CH.sub.3).sub.4                       Ga.sub.x Sb.sub.y Sn.sub.z.sup.(2)                                                              Ga       SbH.sub.3 & Sn(CH.sub.3).sub.4                       In.sub.x Sb.sub.y Sn.sub.z.sup.(2)                                                              In       SbH.sub.3 & Sn(CH.sub.3).sub.4                       B.sub.v N.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                       B        N.sub.2 & Sn(CH.sub.3).sub.4 & SiH.sub.4             Al.sub.v N.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                      Al       N.sub.2 & Sn(CH.sub.3).sub.4 & SiH.sub.4             Ga.sub.v N.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                      Ga       N.sub.2 & Sn(CH.sub.3).sub.4 & SiH.sub.4             In.sub.v N.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                      In       N.sub.2 & Sn(CH.sub.3).sub.4 & SiH.sub.4             B.sub.v P.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                       B        PH.sub.3 & Sn(CH.sub.3).sub.4 & SiH.sub.4            Al.sub.v P.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                      Al       PH.sub.3 & Sn(CH.sub.3).sub.4 & SiH.sub.4            Ga.sub.v P.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                      Ga       PH.sub.3 & Sn(CH.sub.3).sub.4 & SiH.sub.4            In.sub.v P.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                      In       PH.sub.3 & Sn(CH.sub.3).sub.4 & SiH.sub.4            Al.sub.v As.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                     Al       AsH.sub.3 & Sn(CH.sub.3).sub.4 & SiH.sub.4           Ga.sub.v As.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                     Ga       AsH.sub.3 & Sn(CH.sub.3).sub.4 & SiH.sub.4           Al.sub.v Sb.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                     Sn       Al(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           Ga.sub.v Sb.sub.x Sn.sub.y Si.sub.z.sup.(3)                                                     Ga       SbH.sub.3 & Sn(CH.sub.3).sub.4 & SiH.sub.4           In.sub.v Sb.sub.x Sn.sub.y Si.sub.z                                                             Sn       In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           B.sub.v N.sub.x Sn.sub.y Ge.sub.z                                                               B        N.sub.2 & Sn(CH.sub.3).sub.4 & GeH.sub.4             Al.sub.v N.sub.x Sn.sub.y Ge.sub.z                                                              Al       N.sub.2 & Sn(CH.sub.3).sub.4 & GeH.sub.4             Ga.sub.v N.sub.x Sn.sub.y Ge.sub.z                                                              Ga       N.sub.2 & Sn(CH.sub.3).sub.4 & GeH.sub.4             In.sub.v N.sub.x Sn.sub.y Ge.sub.z                                                              Sn       In(CH.sub.3).sub.3 & N.sub.2 & GeH.sub.4             B.sub.v P.sub.x Sn.sub.y Ge.sub.z                                                               Sn       B.sub.2 H.sub.6 & PH.sub.3 & GeH.sub.4               Al.sub.v P.sub.x Sn.sub.y Ge.sub.z                                                              Al       PH.sub.3 & Sn(CH.sub.3).sub.4  & GeH.sub.4           Ga.sub.v P.sub.x Sn.sub.y Ge.sub.z                                                              Sn       Ga(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4            In.sub.v P.sub.x Sn.sub.y Ge.sub.z                                                              Ge       In(CH.sub.3).sub.3 & PH.sub.3 &                                                Sn(CH.sub.3).sub.4                                   Al.sub.v As.sub.x Sn.sub.y Ge.sub.z                                                             Sn       Al(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           Ga.sub.v As.sub.x Sn.sub.y Ge.sub.z                                                             Ge       Ga(CH.sub.3).sub.3 & AsH.sub.3 &                                               Sn(CH.sub.3).sub.4                                   Al.sub.v Sb.sub.x Sn.sub.y Ge.sub.z                                                             Sn       Al(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           Ga.sub.v Sb.sub.x Sn.sub.y Ge.sub.z                                                             Ge       Ga(CH.sub.3).sub.3 & SbH.sub.3 &                                               Sn(CH.sub.3).sub.4                                   In.sub.v Sb.sub.x Sn.sub.y Ge.sub.z                                                             Sn       In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           B.sub.v N.sub.x Si.sub.y Ge.sub.z                                                               Ge       B.sub.2 H.sub.6 & N.sub.2 & SiH.sub. 4               Al.sub.v N.sub.x Si.sub.y Ge.sub.z                                                              Al       N.sub.2 & SiH.sub.4 & GeH.sub.4                      Ga.sub.v N.sub.x Si.sub.y Ge.sub.z                                                              Ga       N.sub.2 & SiH.sub.4 & GeH.sub.4                      In.sub.v N.sub.x Si.sub.y Ge.sub.z                                                              In       N.sub.2 & SiH.sub.4 & GeH.sub.4                      B.sub.v N.sub.x Si.sub.y Ge.sub.z                                                               B        N.sub.2 & SiH.sub.4 & GeH.sub.4                      Al.sub.v P.sub.x Si.sub.y Ge.sub.z                                                              Ge       Al(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4            Al.sub.v Sb.sub.x Si.sub.y Ge.sub.z                                                             Al       SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    In.sub.v P.sub.x Si.sub.y Ge.sub.z                                                              In       PH.sub.3  & SiH.sub.4  & GeH.sub.4                   Al.sub.v As.sub.x Si.sub.y Ge.sub.z                                                             Ge       Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           Ga.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     Ga       AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    Ga.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     Ga       Sb(CH.sub.3).sub.3 & SiH.sub.4 &                                               Ge(CH.sub.3).sub.3                                   Ga.sub.v P.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                      Ga       PH.sub.3 & SiH.sub.4 & GeH.sub.4                     (GaAs).sub.1.sub.-x (InAs).sub.x.sup.(1)                                                        GaAs or  In(CH.sub.3).sub.3 & AsH.sub.3 or                                     InAs     Ga(CH.sub.3).sub.3 & AsH.sub.3                       (GaSb).sub.1.sub.-x (InAs).sub.x.sup.(1)                                                        GaSb or  In(CH.sub.3).sub.3 & AsH.sub.3 or                                     InAs     Ga(CH.sub.3).sub.3 & SbH.sub.3                       (GaP).sub.1.sub.-x (InAs).sub.x.sup.(1)                                                         GaP or   In(CH.sub.3).sub.3 & AsH.sub.3 or                                     InAs     Ga(CH.sub.3).sub.3 & PH.sub.3                        (GaAs).sub.1.sub.-x (InSb).sub.x.sup.(1)                                                        GaAs or  In(CH.sub.3).sub.3 & SbH.sub.3 or                                     InSb     Ga(CH.sub.3).sub.3 & AsH.sub.3                       (GaSb).sub.1.sub.-x (InSb).sub.x.sup.(1)                                                        GaSb or  In(CH.sub.3).sub.3 & SbH.sub.3 or                                     InSb     Ga(CH.sub.3).sub.3 & SbH.sub.3                       (GaP).sub.1.sub.-x (InSb).sub.x.sup.(1)                                                         GaP or   In(CH.sub.3).sub.3 & SbH.sub. 3 or                                    InSb     Ga(CH.sub.3).sub.3 & PH.sub.3                        (GaAs).sub.1.sub.-x (InP).sub.x.sup.(1)                                                         GaAs or  In(CH.sub.3).sub.3 & PH.sub.3 or                                      InP      Ga(Ch.sub.3).sub.3 & AsH.sub.3                       (GaSb).sub.1.sub.-x (InP).sub.x.sup.(1)                                                         GaSb or  In(CH.sub.3).sub.3 & PH.sub.3 or                                      InP      Ga(CH.sub.3).sub.3 & SbH.sub.3                       (GaP).sub.1.sub.-x (InP).sub.x.sup.(1)                                                          GaP or   In(CH.sub.3).sub.3 & PH.sub.3 or                                      InP      Ga(CH.sub.3).sub.3 & PH.sub.3                        (GaAs).sub.x (InAs).sub.y Si.sub.z.sup.(2)                                                      GaAs or  In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 or                         InAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaAs).sub.x (InAs).sub.y Ge.sub.z.sup.(2)                                                      GaAs or  In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4 or                         InAs     Ga(CH.sub. 3).sub.3 & AsH.sub.3 & GeH.sub.4          (GaSb).sub.x (InAs).sub.y Si.sub.z.sup.(2)                                                      GaSb or  In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 or                         InAs     Ga(CH.sub. 3).sub.3 & SbH.sub.3 & SiH.sub.4          (GaSb).sub.x (InAs).sub.y Ge.sub.z.sup.(2)                                                      GaSb or  In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4 or                         InAs     Ga(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (GaP).sub.x (InAs).sub.y Si.sub.z.sup.(2)                                                       GaP or   In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 or                         InAs     Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4            (GaP).sub.x (InAs).sub.y Ge.sub.z.sup.(2)                                                       GaP or   In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4 or                         InAs     Ga(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4            (GaAs).sub.v (InAs).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             GaAs or  In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                          InAs     GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaSb).sub.v (InAs).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             GaSb or  In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub. 4 &                         InAs     GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaP).sub.v (InAs).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              GaP or   In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                          InAs     GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                                    GeH.sub.4                                            (GaAs).sub.x (InSb).sub.y Si.sub.z.sup.(2)                                                      GaAs or  In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 or                         InSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaAs).sub.x (InSb).sub.y Ge.sub.z.sup.(2)                                                      GaAs or  In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4 or                         InSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (GaSb).sub.x (InSb).sub.y Si.sub.z.sup.(2)                                                      GaSb or  In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 or                         InSb     Ga(CH.sub.3) 3 & SbH.sub.3 & SiH.sub.4               (GaSb).sub.x (InSb).sub.y Ge.sub.z.sup.(2)                                                      GaSb or  In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4 or                         InSb     Ga(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (GaP).sub.x (InSb).sub.y Si.sub.z.sup.(2)                                                       GaP or   In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 or                         InSb     Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4            (GaP).sub.x (InSb).sub.y Ge.sub.z.sup.(2)                                                       GaP or   In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4 or                         InSb     Ga(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4            (GaAs).sub.v (InSb).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             GaAs or  In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                          InSb     GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaSb).sub.v (InSb).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             GaSb or  In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                          InSb     GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaP).sub.v (InSb).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              GaP or   In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                          InSb     GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                                    GeH.sub.4                                            (AlSb).sub.x (BP).sub.y Si.sub.z.sup.(2)                                                        AlSb or  B.sub.2 H.sub.6 & PH.sub.3 & SiH.sub.4 or                             BP       Al(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (GaAs).sub.x (InP).sub.y Si.sub.z.sup.(2)                                                       GaAs or  In(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 or                          InP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlSb).sub.x (AlAs).sub.y Si.sub.z.sup.(2)                                                      AlSb or  Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 or                         AlAs     Al(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (GaAs).sub.x (InP).sub.y Ge.sub.z.sup.(2)                                                       GaAs or  In(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4 or                          InP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (AlN).sub.x (GaN).sub.y Ge.sub.z.sup.(2)                                                        AlN or   Ga(CH.sub.3).sub.3 & N.sub.2 & GeH.sub.4 or                           GaN      Al(CH.sub.3).sub.3 & N.sub.2 & GeH.sub.4             (GaSb).sub.x (InP).sub.y Si.sub.z.sup.(2)                                                       GaSb or  In(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 or                          InP      Ga(CH.sub.3).sub.3 & SbH.sub.4 & SiH.sub.4           (BP).sub.x (InAs).sub.y Si.sub.z.sup.(2)                                                        BP or    In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 or                         InAs     B.sub.2 H.sub.6 & PH.sub.3 & SiH.sub.4               (GaSb).sub.x (InP).sub.y Ge.sub.z.sup.(2)                                                       GaSb or  In(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4 or                          InP      Ga(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (BN).sub.x (InN).sub.y Ge.sub.z.sup.(2)                                                         BN or    In(CH.sub.3).sub.3 & N.sub.2 & GeH.sub.4 or                           InN      B.sub.2 H.sub.6 & N.sub.2 & GeH.sub.4                (GaP).sub.x (InP).sub.y Si.sub.z.sup.(2)                                                        GaP or   In(CH.sub.3).sub.3  & PH.sub.3 & SiH.sub.4 or                         InP      Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4            (AlAs).sub.x (AlP).sub.y Si.sub.z.sup.(2)                                                       AlAs or  Al(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 or                          AlP      Cl(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaP).sub.x (InP).sub.y Ge.sub.z.sup.(2)                                                        GaP or   In(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4 or                          InP      Ga(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4            (AlSb).sub.x (InAs).sub.y Si.sub.z.sup.(2)                                                      AlSb or  In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 or                         InAs     Al(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (GaAs).sub.v (InP).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              GaAs or  In(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                           InP      GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (BN).sub.v (InN).sub.x Si.sub.y Ge.sub.z.sup.(3)                                                BN or    In(CH.sub.3) 3 & PH.sub.3 & GeH.sub.4 &                               InN      SiH.sub.4 or                                                                   B.sub.2 H.sub.6 & N.sub.2 & SiH.sub.4 &                                        GeH.sub.4                                            (GaSb).sub.v (InP).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              GaAs or  In(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                           InP      GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaN).sub.v (AlN).sub.x Si.sub.y Ge.sub.z.sup.(3)                                               GaN or   Al(CH.sub.3).sub.3 & N.sub.2 & SiH.sub.4 &                            AlN      GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & N.sub.2 & SiH.sub.4 &                                     GeH.sub.4                                            (GaP).sub.v (InP).sub.x Si.sub.y Ge.sub.z.sup.(3)                                               GaP or   In(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                           InP      GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                                    GeH.sub.4                                            (GaAs).sub.1.sub.-x (AlAs).sub.x.sup.(1)                                                        AlAs     Ga(CH.sub.3).sub.3  & AsH.sub.3                      (GaSb).sub.1.sub.-x (AlAs).sub.x.sup.(1)                                                        AlAs     Ga(CH.sub.3).sub.3 & SbH.sub.3                       (GaP).sub.1.sub.-x (AlAs).sub.x.sup.(1)                                                         AlAs     Ga(CH.sub.3).sub.3 & PH.sub.3                        (GaAs).sub.1.sub.-x (AlSb).sub.x.sup.(1)                                                        AlSb     Ga(CH.sub.3).sub.3 & AsH.sub.3                       (GaSb).sub.1.sub.-x (AlSb).sub.x.sup.(1)                                                        AlSb     Ga(CH.sub.3).sub.3 & SbH.sub.3                       (GaP).sub.1.sub.-x (AlSb).sub.x.sup.(1)                                                         AlSb     Ga(CH.sub.3).sub.3 & PH.sub.3                        (GaAs).sub.1.sub.-x (AlP).sub.x.sup.(1)                                                         AlP      Ga(CH.sub.3).sub.3 & AsH.sub.3                       (GaSb).sub.1.sub.-x (AlP).sub.x.sup.(1)                                                         AlP      Ga(CH.sub.3).sub.3 & SbH.sub.3                       (GaP).sub.1.sub.-x (AlP).sub.x.sup.(1)                                                          AlP      Ga(CH.sub.3).sub.3 & PH.sub.3                        (GaAs).sub.x (AlAs).sub.y Si.sub.z.sup.(2)                                                      AlAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaAs).sub.x (AlAs).sub.y Ge.sub.z.sup.(2)                                                      AlAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (GaSb).sub.x (AlAs).sub.y Si.sub.z.sup.(2)                                                      AlAs     Ga(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (GaSb).sub.x (AlAs).sub. y Ge.sub.z.sup.(2)                                                     AlAs     Ga(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (GaP).sub.x (AlAs).sub.y Si.sub.z.sup.(2)                                                       AlAs     Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4            (GaP).sub.x (AlAs).sub.y Ge.sub.z.sup.(2)                                                       AlAs     Ga(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4            (GaAs).sub.v (AlAs).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             AlAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaSb).sub.v (AlAs).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             AlAs     Ga(CH.sub.3) & SbH.sub.3 & SiH.sub.4 &                                         GeH.sub.4                                            (GaP).sub.v (AlAs).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              AlAs     Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                                    GeH.sub.4                                            (GaAs).sub.x (AlSb).sub.y Si.sub.z.sup.(2)                                                      AlSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaAs).sub.x (AlSb).sub.y Ge.sub.z.sup.(2)                                                      AlSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (GaSb).sub.x (AlSb).sub.y Si.sub.z.sup.(2)                                                      AlSb     Ga(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (GaSb).sub.x (AlSb).sub.y Ge.sub.z.sup.(2)                                                      AlSb     Ga(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (GaP).sub.x (AlSb).sub.y Si.sub.z.sup.(2)                                                       AlSb     Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4            (GaP).sub.x (AlSb).sub.y Ge.sub.z.sup.(2)                                                       AlSb     Ga(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4            (GaAs).sub.v (AlSb).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             AlSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaSb).sub.v (AlSb).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             AlSb     Ga(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaP).sub.v (AlSb).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              AlSb     Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                                    GeH.sub.4                                            (GaAs).sub.x (AlP).sub.y Si.sub.z.sup.(2)                                                       AlP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaAs).sub.x (AlP).sub.y Ge.sub.z.sup.(2)                                                       AlP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (GaSb).sub.x (AlP).sub.y Si.sub.z.sup.(2)                                                       AlP      Ga(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (GaSb).sub.x (AlP).sub.y Ge.sub.z.sup.(2)                                                       AlP      Ga(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (GaP).sub.x (AlP).sub.y Si.sub.z.sup.(2)                                                        AlP      Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4            (GaP).sub.x (AlP).sub.y Ge.sub.z.sup.(2)                                                        AlP      Ga(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4            (GaAs).sub.v (AlP).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              AlP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaSb).sub.v (AlP).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              AlP      Ga(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaP).sub.v (AlP).sub.x Si.sub.y Ge.sub.z.sup.(3)                                               AlP      Ga(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                                    GeH.sub.4                                            (AlAs).sub.1.sub.-x Si.sub.x.sup.(1)                                                            AlAs     SiH.sub.4 or SiCl.sub.4                              (AlAs).sub.1.sub.-x Ge.sub.x.sup.(1)                                                            AlAs     GeH.sub.4 or Ge(CH.sub.3).sub. 4                     (AlSb).sub.1.sub.-x Si.sub.x.sup.(1)                                                            AlSb     SiH.sub.4 or SiCl.sub.4                              (AlSb).sub.1.sub.-x Ge.sub.x.sup.(1)                                                            AlSb     GeH.sub.4 or Ge(CH.sub.3).sub.4                      (AlP).sub.1.sub.-x Si.sub.x.sup.(1)                                                             AlP      SiH.sub.4 or Ge(CH.sub.3).sub.4                      (AlP).sub.1.sub.-x Ge.sub.x.sup.(1)                                                             AlP      GeH.sub.4 or Ge(CH.sub.3).sub.4                      Al.sub.x As.sub.y Si.sub.z.sup.(2)                                                              Al       AsH.sub.3 & SiH.sub.4                                Al.sub.x As.sub.y Ge.sub.z.sup.(2)                                                              Al       AsH.sub.3 & GeH.sub.4                                Al.sub.x Sb.sub.y Si.sub.z.sup.(2)                                                              Al       SbH.sub.3 & SiH.sub.4                                Al.sub.x Sb.sub.y Ge.sub.z.sup.(2)                                                              Al       SbH.sub.3 & GeH.sub.4                                Al.sub.x P.sub.y Si.sub.z.sup.(2)                                                               Al       PH.sub.3 & SiH.sub.4                                 Al.sub.x P.sub.y Ge.sub.z.sup.(2)                                                               Al       PH.sub.3 & GeH.sub.4                                 Al.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     Al       AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    Al.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     Al       SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    Al.sub.v P.sub.x Si.sub.y Ge.sub.z.sup.(2)                                                      Al       PH.sub.3 & SiH.sub.4 & GeH.sub.4                     (AlAs).sub.x Si.sub.y Ge.sub.z                                                                  AlAs     SiH.sub.4 & GeH.sub.4                                (AlSb).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                          AlSb     SiH.sub.4 & GeH.sub.4                                (AlP).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                           AlP      SiH.sub.4 & GeH.sub.4                                (AlAs).sub.1.sub.-x (InAs).sub.x.sup.(1)                                                        AlAs     AsH.sub.3 & In(CH.sub.3).sub.3                       (AlSb).sub.1.sub.-x (InAs).sub.x.sup.(1)                                                        AlSb     AsH.sub.3 & In(CH.sub.3).sub.3                       (AlP).sub.1.sub.-x (InAs).sub.x.sup.(1)                                                         AlP      AsH.sub.3 & In(CH.sub.3).sub.3                       (AlAs).sub.1.sub.-x (InSb).sub.x.sup.(1)                                                        AlAs     SbH.sub.3 & In(CH.sub.3).sub.3                       (AlSb).sub.1.sub.-x (InSb).sub.x.sup.(1)                                                        AlSb     SbH.sub.3 & In(CH.sub.3).sub.3                       (AlP).sub.1.sub.-x (InSb).sub.x.sup.(1)                                                         AlP      SbH.sub.3 & In(CH.sub.3).sub.3                       (AlAs).sub.1.sub.-x (InP).sub.x.sup.(1)                                                         AlAs     PH.sub.3 & In(CH.sub.3).sub.3                        (AlSb).sub.1.sub.-x (InP).sub.x.sup.(1)                                                         AlSb     PH.sub.3 & In(CH.sub.3).sub. 3                       (AlP).sub.1.sub.-x (InP).sub.x.sup.(1)                                                          AlP      PH.sub.3 & In(CH.sub.3).sub.3                        (AlAs).sub.x (InAs).sub.y Si.sub.z.sup.(2)                                                      AlAs     AsH.sub.3 & In(CH.sub.3).sub.3 & SiH.sub.4           (AlAs).sub.x (InAs).sub.y Ge.sub.z.sup.(2)                                                      AlAs     AsH.sub.3 & In(CH.sub.3).sub.3 & GeH.sub.4           (AlSb).sub.x (InAs).sub.y Si.sub.z.sup.(2)                                                      AlSb     AsH.sub.3 & In(CH.sub.3).sub.3 & SiH.sub.4           (AlSb).sub.x (InAs).sub.y Ge.sub.z.sup.(2)                                                      AlSb     AsH.sub.3 & In(CH.sub.3).sub.3 & GeH.sub.4           (AlP).sub.x (InAs).sub.y Si.sub.z.sup.(2)                                                       AlP      AsH.sub.3 & In(CH.sub.3).sub.3 & GeH.sub.4           (AlP).sub.x (InAs).sub.y Ge.sub.z.sup.(2)                                                       AlP      AsH.sub.3 & In(CH.sub.3).sub.3 & GeH.sub.4           (AlAs).sub.v (InAs).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             AlAs     AsH.sub.3 & In(CH.sub.3).sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlSb).sub.v (InAs).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             AlSb     AsH.sub.3 & In(CH.sub.3).sub.3 & SiH.sub. 4 &                                  Ge(CH.sub.3).sub.4                                   (AlP).sub.v (InAs).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              AlP      AsH.sub.3 & In(CH.sub.3).sub.3 & SiH.sub.4 &                                   Ge(CH.sub.3).sub.4                                   (AlAs).sub.x (InSb).sub.y Si.sub.z.sup.(2)                                                      AlAs     In(CH.sub.3).sub.3 & Sb(CH.sub.3).sub.3 &                                      SiH.sub.4                                            (AlAs).sub.x (InSb).sub.y Ge.sub.z.sup.(2)                                                      AlAs     In(CH.sub.3).sub.3 & Sb(CH.sub.3).sub.3 &                                      GeH.sub.4                                            (AlSb).sub.x (InSb).sub.y Si.sub.z.sup.(2)                                                      AlSb     In(CH.sub.3).sub.3 & Sb(CH.sub.3).sub.3 &                                      SiH.sub.4                                            (AlSb).sub.x (InSb).sub.y Ge.sub.z.sup.(2)                                                      AlSb     In(CH.sub.3).sub.3 & Sb(CH.sub.3).sub.3 &                                      GeH.sub.4                                            (AlP).sub.x (InSb).sub.y Si.sub.z.sup.(2)                                                       AlP      In(CH.sub.3).sub.3 & Sb(CH.sub.3).sub.3 &                                      SiH.sub.4                                            (AlP).sub.x (InSb).sub.y Ge.sub.z.sup.(2)                                                       AlP      In(CH.sub.3).sub.3 & Sb(CH.sub.3).sub.3 &                                      GeH.sub.4                                            (AlAs).sub.v (InSb).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             AlAs     In(CH.sub.3).sub. 3 & Sb(CH.sub.3).sub.3 &                                     SiH.sub.4                                                                      & GeH.sub.4                                          (AlSb).sub.v (InSb).sub.x Si.sub.y Ge.sub.z.sup.(3)                                             AlSb     In(CH.sub.3).sub.3 & Sb(CH.sub.3).sub.3 &                                      SiH.sub.4                                                                      & GeH.sub.4                                          (AlP).sub.v (InSb).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              AlP      In(CH.sub.3).sub.3 & Sb(CH.sub.3).sub.3 &                                      SiH.sub.4                                                                      & GeH.sub.4                                          (AlAs)).sub.x (InP).sub.y Si.sub.z.sup.(2)                                                      AlAs     In(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4            (AlAs).sub.x (InP).sub.y Ge.sub.z.sup.(2)                                                       AlAs     In(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4            (AlSb).sub.x (InP).sub.y Si.sub.z.sup.(2)                                                       AlSb     In(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4            (AlSb).sub.x (InP).sub.y Ge.sub.z.sup.(2)                                                       AlSb     In(CH.sub.3).sub.3 & PH.sub.3 & GeH.sub.4            (AlP).sub.x (InP).sub.y Si.sub.z.sup.(2)                                                        AlP      In(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4            (AlP).sub.x (InP).sub.y Ge.sub.z.sup.(2)                                                        AlP      In(CH.sub.3).sub.3 & PH.sub. 3 & GeH.sub.4           (AlAs).sub.v (InP).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              AlAs     In(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                                    GeH.sub.4                                            (AlSb).sub.v (InP).sub.x Si.sub.y Ge.sub.z.sup.(3)                                              AlSb     In(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                                    GeH.sub.4                                            (AlP).sub.v (InP).sub.x Si.sub.y Ge.sub.z.sup.(3)                                               AlP      In(CH.sub.3).sub.3 & PH.sub.3 & SiH.sub.4 &                                    GeH.sub.4                                            In.sub.x As.sub.y Si.sub.z.sup.(2)                                                              In       AsH.sub.3 & SiH.sub.4                                In.sub.x As.sub.y Ge.sub.z.sup.(2)                                                              In       AsH.sub.3 & GeH.sub.4                                In.sub.x Sb.sub.y Si.sub.z.sup.(2)                                                              In       SbH.sub.3 & SiH.sub.4                                In.sub.x Sb.sub.y Ge.sub.z.sup.(2)                                                              In       SbH.sub.3 & GeH.sub.4                                In.sub.x P.sub.x Si.sub.z.sup.(2)                                                               In       PH.sub.3 & SiH.sub.4                                 In.sub.x P.sub.x Ge.sub.z.sup.(2)                                                               In       PH.sub.3 & GeH.sub.4                                 In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     In       AsH.sub.3 & SiH.sub. 4 & GeH.sub.4                   In.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     In       SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    In.sub.v P.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                      In       PH.sub.3 & SiH.sub.4 & GeH.sub.4                     (InAs).sub.1.sub.-x Si.sub.x.sup.(1)                                                            InAs     SiH.sub.4 or SiCl.sub.4                              (InAs).sub.1.sub.-x Ge.sub.x.sup.(1)                                                            InAs     GeH.sub.4 or Ge(CH.sub.3).sub.4                      (InSb).sub.1.sub.-x Si.sub.x.sup.(1)                                                            InSb     SiH.sub.4 or SiCl.sub.4                              (InSb).sub.1.sub.-x Ge.sub.x.sup.(1)                                                            InSb     GeH.sub.4 or Ge(CH.sub.3).sub.4                      (InP).sub.1.sub.-x Si.sub.x.sup.(1)                                                             InP      SiH.sub.4 or SiCl.sub.4                              (InP).sub.1.sub.-x Ge.sub.x.sup.(1)                                                             InP      GeH.sub.4 or Ge(CH.sub.3).sub.4                      (InAs).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                          InAs     SiH.sub.4 & GeH.sub.4                                (InSb).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                          InSb     SiH.sub.4 & GeH.sub.4                                (InP).sub.x Si.sub.y Ge.sub.z.sup.(2)                                                           InP      SiH.sub.4 & GeH.sub.4                                (GaAs).sub.v Ga.sub.x As.sub.y Si.sub.z.sup.(3)                                                 GaAs or Ga                                                                              Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaSb).sub.v Ga.sub.x As.sub.y Si.sub.z.sup.(3)                                                 GaSb or Ga                                                                              Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 or                                  Ga(CH.sub.3).sub.3 & SbH.sub.3 & AsH.sub.3 &                                   SiH.sub.4                                            (GaP).sub.v Ga.sub.x As.sub.y Si.sub.z.sup.(3)                                                  GaP or Ga                                                                               Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 or                                  Ga(CH.sub.3).sub.3 & PH.sub.3 & AsH.sub.3 &                                    SiH.sub.4                                            (AlAs).sub.v Ga.sub.x As.sub.y Si.sub.z.sup.(3)                                                 AlAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlSb).sub.v Ga.sub.x As.sub.y Si.sub.z.sup.(3)                                                 AlSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlP).sub.v Ga.sub.x As.sub.y Si.sub.z.sup.(3)                                                  AlP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (InAs).sub.v Ga.sub.x As.sub.y Si.sub.z.sup.(3)                                                 InAs or Ga                                                                              Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 or                                  In(CH.sub.3 ).sub.3 & AsH.sub.3 & SiH.sub.4          (InSb).sub.v Ga.sub.x As.sub.y Si.sub.z.sup.(3)                                                 InSb or Ga                                                                              Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 or                                  In(CH.sub.3).sub.3 & SbH.sub.3 & AsH.sub.3 &                                   SiH.sub.4                                            (InP).sub.v Ga.sub.x As.sub.y Si.sub.z.sup.(3)                                                  InP or Ga                                                                               Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 or                                  In(CH.sub.3).sub.3 & PH.sub.3 & AsH.sub.3 &                                    SiH.sub.4                                            (GaAs).sub.v Ga.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 GaAs or Ga                                                                              Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4 or                                  Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (GaSb).sub.v Ga.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 GaSb or Ga                                                                              Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4 or                                  Ga(CH.sub.3).sub.3 & SbH.sub.3 & AsH.sub.3 &                                   GeH.sub.4                                            (GaP).sub.v Ga.sub.x As.sub.y Ge.sub.z.sup.(3)                                                  GaP or Ga                                                                               Ga(CH.sub. 3).sub.3 & AsH.sub.3 & GeH.sub.4 or                                 Ga(CH.sub.3).sub.3 & PH.sub.3 & AsH.sub.3 &                                    GeH.sub.4                                            (AlAs).sub.v Ga.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 AlAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (AlSb).sub.v Ga.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 AlSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (AlP).sub.v Ga.sub.x As.sub.y Ge.sub.z.sup.(3)                                                  AlP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (InAs).sub.v Ga.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 InSb or Ga                                                                              Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4 or                                  In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (InSb).sub.v Ga.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 InSb or Ga                                                                              Ga(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4 or                                  In(CH.sub.3).sub.3 & SbH.sub.3 & AsH.sub.3 &                                   GeH.sub.4                                            (InP).sub.v Ga.sub.x As.sub.y Ge.sub.z.sup.(3)                                                  InP or Ga                                                                               Ga(CH.sub.3).sub. 3 & AsH.sub.3 & GeH.sub.4 or                                 In(CH.sub.3).sub.3 & PH.sub.3 & AsH.sub.3 &                                    GeH.sub.4                                            (GaAs).sub.u Ga.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        GaAs or Ga                                                                              Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaSb).sub.u Ga.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        GaSb or Ga                                                                              Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4 or -  Ga(CH.sub.3).sub.3 & SbH.sub.3                                 & AsH.sub.3 &                                                                  SiH.sub.4 & GeH.sub.4                                (GaP).sub.u Ga.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                         GaP or Ga                                                                               Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4 or                                                                   Ga(CH.sub.3).sub.3 & PH.sub.3 & AsH.sub.3 &                                    SiH.sub.4 & GeH.sub.4                                (AlAs).sub.u Ga.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        AlAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlSb).sub.u Ga.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        AlSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlP).sub.u Ga.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                         AlP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   -  GeH.sub.4                                         (InAs).sub.u Ga.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        InAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (InSb).sub.u Ga.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        InSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (InP).sub.u Ga.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                         InP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaAs).sub.v Al.sub.x As.sub.y Si.sub.z.sup.(3)                                                 GaAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaSb).sub.v Al.sub.x As.sub.y Si.sub.z.sup.(3)                                                 GaSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaP).sub.v Al.sub.x As.sub.y Si.sub.z.sup.(3)                                                  GaP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlAs).sub.v Al.sub.x As.sub.y Si.sub.z.sup.(3)                                                 AlAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlSb).sub.v Al.sub.x As.sub.y Si.sub.z.sup.(3)                                                 AlSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlP).sub.v Al.sub.x As.sub.y Si.sub.z.sup.(3)                                                  AlP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (InAs).sub.v Al.sub.x As.sub.y Si.sub.z.sup.(3)                                                 InAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (InSb).sub.v Al.sub.x As.sub.y Si.sub.z.sup.(3)                                                 InSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (InP).sub.v Al.sub.x As.sub.y Si.sub.z.sup.(3)                                                  InP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaAs).sub.v Al.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 GaAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaSb).sub.v Al.sub.x As.sub. y Ge.sub.z.sup.(3)                                                GaSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaP).sub.v Al.sub.x As.sub.y Ge.sub.z.sup.(3)                                                  GaP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlAs).sub.v Al.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 AlAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlSb).sub.v Al.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 AlSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlP).sub.v Al.sub.x As.sub.y Ge.sub.z.sup.(3)                                                  AlP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (InAs).sub.v Al.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 InAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (InSb).sub.v Al.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 InSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (InP).sub.v Al.sub.x As.sub.y Ge.sub.z.sup.(3)                                                  InP      Al(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (GaAs).sub.u Al.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        GaAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaSb).sub.u Al.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        GaSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaP).sub.u Al.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                         GaP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlAs).sub.u Al.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        AlAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlSb).sub.u Al.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        AlSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlP).sub.u Al.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                         AlP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (InAs).sub.u Al.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        InAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (InSb).sub.u Al.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        InSb     Al(CH.sub.3).sub.3 & AsH.sub. 3 & SiH.sub.4 &                                  GeH.sub.4                                            (InP).sub.u Al.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                         InP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaAs).sub.v In.sub.x As.sub.y Si.sub.z.sup.(3)                                                 GaAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaSb).sub.v In.sub.x As.sub.y Si.sub.z.sup.(3)                                                 GaSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaP).sub.v In.sub.x As.sub.y Si.sub.z.sup.(3)                                                  GaP      In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlAs).sub.v In.sub.x As.sub.y Si.sub.z.sup.(3)                                                 AlAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlSb).sub.v In.sub.x As.sub.y Si.sub.z.sup.(3)                                                 AlSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (AlP).sub.v In.sub.x As.sub.y Si.sub.z.sup.(3)                                                  AlP      In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (InAs).sub.v In.sub.x As.sub.y Si.sub.z.sup.(3)                                                 InAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (InSb).sub.v In.sub.x As.sub. y Si.sub.z.sup.(3)                                                InSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (InP).sub.v In.sub.x As.sub.y Si.sub.z.sup.(3)                                                  InP      In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4           (GaAs).sub.v In.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 GaAs     In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (GaSb).sub.v In.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 GaSb     In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (GaP).sub.v In.sub.x As.sub.y Ge.sub.z.sup.(3)                                                  GaP      In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (AlAs).sub.v In.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 AlAs     In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (AlSb).sub.v In.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 AlSb     In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (AlP).sub.v In.sub.x As.sub.y Ge.sub.z.sup.(3)                                                  AlP      In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (InAs).sub.v In.sub.x As.sub.y Ge.sub.z.sup.(3)                                                 InAs     In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (InSb).sub.v In.sub.x As.sub.y Ge.sub.z.sup. (3)                                                InSb     In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (InP).sub.v In.sub.x As.sub.y Ge.sub.z.sup.(3)                                                  InP      In(CH.sub.3).sub.3 & AsH.sub.3 & GeH.sub.4           (GaAs).sub.u In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        GaAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaSb).sub.u In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        GaSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaP).sub.u In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                         GaP      In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlAs).sub.u In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        AlAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlSb).sub.u In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        AlSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlP).sub.u In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                         AlP      In(CH.sub.3 ).sub.3 & AsH.sub.3 & SiH.sub.4 &                                  GeH.sub.4                                            (InAs).sub.u In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        InAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (InSb).sub.u In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        InSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (InP).sub.u In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                         InP      In(CH.sub.3).sub.3 & AsH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (InAs).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 InAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (InSb).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 InSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (InP).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(3)                                                  InP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaAs).sub.v Ub.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 GaAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaSb).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 GaSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaP).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(3)                                                  GaP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlAs).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 AlAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlSb).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 AlSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlP).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(3)                                                  AlP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (InAs).sub.u In.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        InAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (InSb).sub.u In.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        InSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (InP).sub.u In.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                         InP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (GaAs).sub.u In.sub. v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                       GaAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (GaSb).sub.u In.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        GaSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (GaP).sub.u In.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                         GaP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (AlAs).sub.u In.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        AlAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (AlSb).sub.u In.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        AlSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (AlP).sub.u In.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                         AlP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (InAs).sub.u In.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                        InAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (InSb).sub.u In.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                        InP      In(CH.sub.3).sub.3 & AsH.sub.3 SbH.sub.3 &                                     GeH.sub.4                                            (InP).sub.u In.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                         InP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (GaAs).sub.u In.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                        GaAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (GaSb).sub.u In.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                        GaSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (GaP).sub.u In.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                         GaP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (AlAs).sub.u In.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                        AlAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (AlSb).sub.u In.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                        AlSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (AlP).sub.u In.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                         AlP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (InAs).sub.t In.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               InAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (InSb).sub.t In.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               InSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (InP).sub.t In.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                                InP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (GaAs).sub.t In.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               GaAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (GaSb).sub.t In.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               GaSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (GaP).sub. t In.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               GaP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (AlAs).sub.t In.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               AlAs     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (AlSb).sub.t In.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               AlSb     In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (AlP).sub.t In.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                                AlP      In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (InAs).sub.v Al.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 InAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (InSb).sub.v Al.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 InSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (InP).sub.v Al.sub.x As.sub.y Sb.sub.z.sup.(3)                                                  InP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaAs).sub.v Al.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 GaAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaSb).sub.v Al.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 GaSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaP).sub.v Al.sub.x As.sub.y Sb.sub.z.sup.(3)                                                  GaP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlAs).sub.v Al.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 AlAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlSb).sub.v Al.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 AlSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlP).sub.v Al.sub.x As.sub.y Sb.sub.z.sup.(3)                                                  AlP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (InAs).sub.u Al.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        InAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (InSb).sub.u Al.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        InSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (InP).sub.u Al.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                         InP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (GaAs).sub.u Al.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        GaAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (GaSb).sub.u Al.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        GaSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (GaP).sub.u Al.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                         GaP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (AlAs).sub.u Al.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        AlAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (AlSb).sub.u Al.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        AlSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   -  SiH.sub.4                                         (AlP).sub.u Al.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                         AlP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (InAs).sub.u Al.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                        InAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (InSb).sub.u Al.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                        InSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (InP).sub.u Al.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                         InP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (GaAs).sub.u Al.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                        GaAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (GaSb).sub.u Al.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                        GaSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (GaP).sub.u Al.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                         GaP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (AlAs).sub.u Al.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup. (4)                                       AlAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (AlSb).sub.u Al.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                        AlSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (AlP).sub.u Al.sub.v As.sub.x Sb.sub.y Ge.sub.z.sup.(4)                                         AlP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (InAs).sub.t Al.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               InAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (InSb).sub.t Al.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               InSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (InP).sub.t Al.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                                InP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (GaAs).sub.t Al.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.                                  GaAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (GaSb).sub.t Al.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               GaSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   GeH.sub.4                                            (GaP).sub.t Al.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                                GaP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (AlAs).sub.t Al.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               AlAs     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (AlSb).sub.t Al.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               AlSb     Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (AlP).sub.t Al.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                                AlP      Al(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (InAs).sub.v Ga.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 InAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (InSb).sub.v Ga.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 InSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (InP).sub.v Ga.sub.x As.sub.y Sb.sub.z.sup.(3)                                                  InP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaAs).sub.v Ga.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 GaAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaSb).sub.v Ga.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 GaSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaP).sub.v Ga.sub.x As.sub.y Sb.sub.z.sup.(3)                                                  GaP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlAs).sub.v Ga.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 AlAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlSb).sub.v Ga.sub.x As.sub.y Sb.sub.z.sup.(3)                                                 AlSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlP).sub.v Ga.sub.x As.sub.y Sb.sub.z.sup.(3)                                                  AlP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (InAs).sub.u Ga.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        InAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (InSb).sub.u Ga.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        InSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (InP).sub.u Ga.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                         InP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (GaAs).sub.u Ga.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        GaAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (GaSb).sub.u Ga.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        GaSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (GaP).sub.u Ga.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                         GaP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (AlAs).sub.u Ga.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        AlAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (AlSb).sub.u Ga.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                        AlSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (AlP).sub.u Ga.sub.v As.sub.x Sb.sub.y Si.sub.z.sup.(4)                                         AlP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4                                            (InAs).sub.t Ga.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               InAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (InSb).sub.t Ga.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               InSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (InP).sub.t Ga.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                                InP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (GaAs).sub.t Ga.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               GaAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (GaSb).sub.t Ga.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               GaSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (GaP).sub.t Ga.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                                GaP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (AlAs).sub.t Ga.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               AlAs     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (AlSb).sub.t Ga.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                               AlSb     Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                (AlP).sub.t Ga.sub.u As.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(5)                                AlP      Ga(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3 &                                   SiH.sub.4 & GeH.sub.4                                In.sub.x Sb.sub.y As.sub.z.sup. (2)                                                             In       SbH.sub.3 & AsH.sub.3                                In.sub.x P.sub.y As.sub.z.sup.(2)                                                               In       PH.sub.3 & AsH.sub.3                                 In.sub.x P.sub.y Sb.sub.z.sup.(2)                                                               In       PH.sub.3 & SbH.sub.3                                 Ga.sub.x Sb.sub.y As.sub.z.sup.(2)                                                              Ga       SbH.sub.3 & AsH.sub.3                                Ga.sub.x P.sub.y As.sub.z.sup.(2)                                                               Ga       PH.sub.3 & AsH.sub.3                                 Ga.sub.x P.sub.y Sb.sub.z.sup.(2)                                                               Ga       PH.sub.3 & SbH.sub.3                                 Al.sub.x Sb.sub.y As.sub.z.sup.(2)                                                              Al       SbH.sub.3 & AsH.sub.3                                Al.sub.x P.sub.y As.sub.z.sup.(2)                                                               Al       PH.sub.3 & AsH.sub.3                                 Al.sub.x P.sub.y Sb.sub.z.sup.(2)                                                               Al       PH.sub.3 & SbH.sub.3                                 In.sub.v Sb.sub.x As.sub.y Si.sub.z.sup.(3)                                                     In       SbH.sub.3 & AsH.sub.3 & SiH.sub.4                    In.sub.v P.sub.x As.sub.y Si.sub.z.sup.(3)                                                      In       PH.sub.3 & AsH.sub.3 & SiH.sub.4                     In.sub.v P.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                      In       PH.sub.3 & SbH.sub.3 & SiH.sub.4                     Ga.sub.v Sb.sub.x As.sub.y Si.sub.z.sup.(3)                                                     Ga       SbH.sub.3 & AsH.sub.3 & SiH.sub.4                    Ga.sub.v P.sub.x As.sub.y Si.sub.z.sup.(3)                                                      Ga       PH.sub.3 & AsH.sub.3 & SiH.sub.4                     Ga.sub.v P.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                      Ga       PH.sub.3 & SbH.sub.3 & SiH.sub.4                     Ga.sub.v P.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                      Ga       PH.sub.3 & SbH.sub.3 & SiH.sub.4                     Al.sub.v Sb.sub.x As.sub.y Si.sub.z.sup.(3)                                                     Al       SbH.sub.3 & AsH.sub.3 & SiH.sub.4                    Al.sub.v P.sub.x As.sub.y Si.sub.z.sup.(3)                                                      Al       PH.sub.3 & AsH.sub.3 & SiH.sub.4                     Al.sub.v P.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                      Al       PH.sub.3 & SbH.sub.3 & SiH.sub.4                     In.sub.v Sb.sub.x As.sub.y Ge.sub.z.sup.(3)                                                     In       SbH.sub.3 & AsH.sub.3 & GeH.sub.4                    In.sub.v P.sub.x As.sub.y Ge.sub.z.sup.(3)                                                      In       PH.sub.3 & AsH.sub.3 & GeH.sub.4                     In.sub.v P.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                      In       PH.sub.3 & SbH.sub.3 & GeH.sub.4                     Ga.sub.v Sb.sub.x As.sub.y Ge.sub.z.sup.(3)                                                     Ga       SbH.sub.3 & AsH.sub.3 & GeH.sub.4                    Ga.sub.v P.sub.x As.sub.y Ge.sub.z.sup.(3)                                                      Ga       PH.sub.3 & AsH.sub.3 & GeH.sub.4                     Ga.sub.v P.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                      Ga       PH.sub.3 & SbH.sub.3 & GeH.sub.4                     Al.sub.v Sb.sub.x As.sub.y Ge.sub.z.sup.(3)                                                     Al       SbH.sub.3 & AsH.sub.3 & GeH.sub.4                    Al.sub.v P.sub.x As.sub.y Ge.sub.z.sup.(3)                                                      Al       PH.sub.3 & AsH.sub.3 & GeH.sub.4                     Al.sub.v P.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                      Al       PH.sub.3 & SbH.sub.3 & GeH.sub.4                     In.sub.u Sb.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                            In       SbH.sub.3 & AsH.sub.3 & SiH.sub.4 & GeH.sub.4        In.sub.u P.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                             In       PH.sub.3 & AsH.sub.3 & SiH.sub.4 & GeH.sub.4         In.sub.u P.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(4)                                             In       PH.sub.3 & SbH.sub.3 & SiH.sub.4 & GeH.sub.4         Ga.sub.u Sb.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                            Ga       SbH.sub.3 & AsH.sub.3 & SiH.sub.4 & GeH.sub.4        Ga.sub.u P.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                             Ga       PH.sub.3 & AsH.sub.3 & SiH.sub.4 & GeH.sub.4         Ga.sub.u P.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(4)                                             Ga       PH.sub.3 & SbH.sub.3 & SiH.sub.4 & GeH.sub.4         Al.sub.u Sb.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                            Al       SbH.sub.3 & AsH.sub.3 & SiH.sub.4 & GeH.sub.4        Al.sub.u P.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(4)                                             Al       PH.sub.3 & AsH.sub.3 & SiH.sub.4 & GeH.sub.4         Al.sub.u P.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(4)                                             Al       PH.sub.3 & SbH.sub.3 & SiH.sub.4 & GeH.sub.4         In.sub.x Sb.sub.y Si.sub.z.sup.(2)                                                              In       SbH.sub.3 & SiH.sub.4                                In.sub.x P.sub.y Si.sub.z.sup.(2)                                                               In       PH.sub.3 & SiH.sub.4                                 In.sub.x As.sub.y Si.sub.z.sup.(2)                                                              In       AsH.sub.3 & SiH.sub.4                                Ga.sub.x Sb.sub.y Si.sub.z.sup.(2)                                                              Ga       SbH.sub.3 & SiH.sub.4                                Ga.sub.x P.sub.y Si.sub.z.sup.(2)                                                               Ga       PH.sub.3 & SiH.sub.4                                 Ga.sub.x As.sub.y Si.sub.z.sup.(2)                                                              Ga       AsH.sub.3 & SiH.sub.4                                Al.sub.x Sb.sub.y Si.sub.z.sup.(2)                                                              Al       SbH.sub.3 & SiH.sub.4                                Al.sub.x P.sub.y Si.sub.z.sup.(2)                                                               Al       PH.sub.3 & SiH.sub.4                                 Al.sub.x As.sub.y Si.sub.z.sup.(2)                                                              Al       AsH.sub.3 & SiH.sub.4                                In.sub.x Sb.sub.y Ge.sub.z.sup.(2)                                                              In       SbH.sub.3 & GeH.sub.4                                In.sub.x P.sub.y Ge.sub.z.sup.(2)                                                               In       PH.sub.3 & GeH.sub.4                                 In.sub.x As.sub.y Ge.sub.z.sup.(2)                                                              In       AsH.sub.3 & GeH.sub.4                                Ga.sub.x Sb.sub.y Ge.sub.z.sup.(2)                                                              Ga       SbH.sub.3 & GeH.sub.4                                Ga.sub.x P.sub.y Ge.sub.z.sup.(2)                                                               Ga       PH.sub.3 & GeH.sub.4                                 Ga.sub.x As.sub.y Ge.sub.z.sup.(2)                                                              Ga       AsH.sub.3 & GeH.sub.4                                Al.sub.x P.sub.y Ge.sub.z.sup.(2)                                                               Al       PH.sub.3 & GeH.sub.4                                 Al.sub.x Sb.sub.y Ge.sub.z.sup.(2)                                                              Al       SbH.sub.3 & GeH.sub.4                                Al.sub.x As.sub.y Ge.sub.z.sup.(2)                                                              Al       AsH.sub.3 & GeH.sub.4                                In.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     In       SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    In.sub.v P.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                      In       PH.sub.3 & SiH.sub.4 & GeH.sub.4                     In.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     In       AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    Ga.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     Ga       SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    Ga.sub.v P.sub.x Si.sub.y Ge.sub.z.sup.(2)                                                      Ga       PH.sub.3 & SiH.sub.4 & GeH.sub.4                     Ga.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     Ga       AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    Al.sub.v P.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                      Al       PH.sub.3 & SiH.sub.4 & GeH.sub.4                     Al.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     Al       SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    Al.sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                     Al       AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    (InAs).sub.v In.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                 InAs     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (InSb).sub.v In.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                 InSb     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (InP).sub.v In.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                  InP      In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (GaAs).sub.v In.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                 GaAs     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (GaP).sub.v In.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                  GaP      In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (GaSb).sub.v In.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                 GaSb     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (AlP).sub.v In.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                  AlP      In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (AlSb).sub.v In.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                 AlSb     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (AlAs).sub.v In.sub.x Sb.sub.y Si.sub. z.sup.(3)                                                AlAs     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (InAs).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                 InAs     In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (InSb).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                 InSb     In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (InP).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                  InP      In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (GaAs).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                 GaAs     In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (GaP).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                  GaP      In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (GaSb).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                 GaSb     In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (AlP).sub.v In.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                  AlP      In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (AlSb).sub.v In.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                 AlSb     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (AlAs).sub.v In.sub.x Sb.sub.y Si.sub.z.sup.(3)                                                 AlAs     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4           (InAs).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                 InAs     In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (InSb).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                 InSb     In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (InP).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                  InP      In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (GaAs).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                 GaAs     In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (GaP).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                  GaP      In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (GaSb).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                 GaSb     In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (AlP).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                  AlP      In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (AlSb).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                 AlSb     In(CH.sub.3).sub.3 & SbH.sub.3 & GeH.sub.4           (AlAs).sub.v In.sub.x Sb.sub.y Ge.sub.z.sup.(3)                                                 AlAs     In(CH.sub. 3).sub.3 & SbH.sub.3 & GeH.sub.4          (InAs).sub.u In.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        InAs     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (InSb).sub.u In.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        InSb     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (InP).sub.u In.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(4)                                         InP      In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaAs).sub.u In.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        GaAs     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaP).sub.u In.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(4)                                         GaP      In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (GaSb).sub.u In.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        GaSb     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlP).sub.u In.sub.v Sb.sub.x Si.sub.y Ge.sub. z.sup.(4)                                        AlP      In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlSb).sub.u In.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        AlSb     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (AlAs).sub.u In.sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(4)                                        AlAs     In(CH.sub.3).sub.3 & SbH.sub.3 & SiH.sub.4 &                                   GeH.sub.4                                            (InAs).sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 InAs     AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    (InSb).sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 InSb     AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    (InP).sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                  InP      AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    (GaAs).sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 GaAs     AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    (GaP).sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                  GaP      AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    (GaSb).sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 GaSb     AsH.sub.3 & SiH.sub.4  & GeH.sub.4                   (AlP).sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                  AlP      AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    (AlSb).sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 AlSb     AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    (AlAs).sub.v As.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 AlAs     AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    (InAs).sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 InAs     SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    (InSb).sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 InSb     SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    (InP).sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                  InP      SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    (GaAs).sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 GaAs     SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    (GaP).sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                  GaP      SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    (GaSb).sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 GaSb     SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    (AlP).sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                  AlP      SbH.sub.3 & SiH.sub.4  & GeH.sub.4                   (AlSb).sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 AlSb     SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    (AlAs).sub.v Sb.sub.x Si.sub.y Ge.sub.z.sup.(3)                                                 AlAs     SbH.sub.3 & SiH.sub.4 & GeH.sub.4                    (InAs).sub.u (InSb).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(4)                                    InAs & InSb                                                                             In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (InP).sub.u (InAs).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(4)                                     InP & InAs                                                                              In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaAs).sub.u (InSb).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(4)                                    GaAs & InSb                                                                             In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaP).sub.u (InSb).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(4)                                     GaP & InSb                                                                              In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaSb).sub.u (InSb).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(4)                                    GaSb & InSb                                                                             In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlP).sub.u (InSb).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(4)                                     AlP & InSb                                                                              In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlSb).sub. u (InSb).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(4)                                   AlSb & InSb                                                                             In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (AlAs).sub.u (InSb).sub.v In.sub.x As.sub.y Sb.sub.z.sup.(4)                                    AlAs & InSb                                                                             In(CH.sub.3).sub.3 & AsH.sub.3 & SbH.sub.3           (GaAs).sub.v (InAs).sub.x (AlAs).sub.y Sb.sub.z.sup.(3)                                         GaAs & InAs                                                                             SbH.sub.3 or Sb(CH.sub.3).sub.3                                       & AlAs                                                        (GaAs).sub.v (InSb).sub.x (AlP).sub.y Si.sub.z.sup.(3)                                          GaAs & InSb                                                                             SiH.sub.4 or SiCl.sub.4                                               & AlP                                                         (GaSb).sub.v (InP).sub.x (AlSb).sub.y Ge.sub.z.sup.(3)                                          GaSb & InP                                                                              GeH.sub.4 or Ge(CH.sub.3).sub.4                                       & AlSb                                                        (GaAs).sub.v (InAs).sub.x (AlAs).sub.y As.sub.z.sup.(3)                                         GaAs & InAs                                                                             AsH.sub.3 or As(CH.sub.3).sub.3                                       & AlAs                                                        (GaP).sub.u (InSb).sub.v (AlSb).sub.x Sb.sub.y.sup.(4)                                          GaP & InSb                                                                              SbH.sub.3 & AsH.sub.3                                As.sub.z         & AlSb                                                        (GaAs).sub.u (GaSb).sub.v (GaP).sub.x In.sub.y.sup.(4)                                          GaAs & GaSb                                                                             In(CH.sub.3).sub.3 & SbH.sub.3                       Sb.sub.z         & GaP                                                         (GaAs).sub.u (GaSb).sub.v (InAs).sub.x As.sub.y.sup.(4)                                         GaAs & GaSb                                                                             AsH.sub. 3 & SbH.sub.3                               Sb.sub.z         & InAs                                                        (GaAs).sub.v (GaSb).sub.x (InSb).sub.y Sb.sub.z.sup.(3)                                         GaAs & GaSb                                                                             SbH.sub.3                                                             & InSb                                                        (GaAs).sub.v (GaSb).sub.x (InP).sub.y As.sub.z.sup.(3)                                          GaAs & GaSb                                                                             AsH.sub.3                                                             & InP                                                         (GaAs).sub.u (GaSb).sub.v (AlP).sub.x As.sub.y.sup.(4)                                          GaAs & GaSb                                                                             AsH.sub.3 & SiH.sub.4                                Si.sub.z         & AlP                                                         (GaAs).sub.t (GaSb).sub.u (AlAs).sub.v As.sub.x.sup.(5)                                         GaAs & GaSb                                                                             AsH.sub.3 & SiH.sub.4 & GeH.sub.4                    Si.sub.y Ge.sub.z                                                                               & AlAs                                                        (GaAs).sub.v (GaSb).sub.x (AlSb).sub.y Sb.sub.z.sup.(3)                                         GaAs & GaSb                                                                             SbH.sub.3                                                             & AlSb                                                        (GaAs).sub.u (InSb).sub.v (GaP).sub.x In.sub.y.sup.(4)                                          GaAs & InSb                                                                             In(CH.sub.3).sub.3 & SbH.sub.3                       Sb.sub.z         & GaP                                                         (GaAs).sub.u (InSb).sub.v (AlAs).sub.x As.sub.y.sup.(4)                                         GaAs & InSb                                                                             AsH.sub.3 & SbH.sub.3                                Sb.sub.z         & AlAs                                                        (GaAs).sub.u (InSb).sub.v (AlSb).sub.x P.sub.y.sup.(4)                                          GaAs & InSb                                                                             PH.sub.3 & SbH.sub.3                                 Sb.sub.z         & AlSb                                                        (GaAs).sub.u (InSb).sub.v (InP).sub.x In.sub.y.sup.(4)                                          GaAs & InSb                                                                             In(CH.sub.3).sub.3 & AsH.sub.3                       As.sub.z         & InP                                                         (GaAs).sub.u (InSb).sub.v (InAs).sub.x Ga.sub.y.sup.(4)                                         GaAs & InSb                                                                             Ga(CH.sub.3).sub.3 & SiH.sub.4                       Si.sub.z         & InAs                                                        (GaAs).sub.t (GaP).sub.u (InSb).sub.v Ga.sub.x.sup.(5)                                          GaAs & GaP                                                                              Ga(CH.sub.3).sub.3 & SiH.sub. 4 & GeH.sub.4          Si.sub.y Ge.sub.z                                                                               & InSb                                                        (GaAs).sub.v (GaP).sub.x (InP).sub.y Si.sub.z.sup.(3)                                           GaAs & GaP                                                                              SiH.sub.4 or SiCl.sub.4                                               & InP                                                         (GaAs).sub.v (GaP).sub.x (AlSb).sub.y Ge.sub.z.sup.(3)                                          GaAs & GaP                                                                              Ge(CH.sub.3).sub.4 or GeH.sub.4                                       & AlSb                                                        (InSb).sub.v (InAs).sub.x (InP).sub.y In.sub.z.sup.(3)                                          InSb & InAs                                                                             In(CH.sub.3).sub.3                                                    & InP                                                         (AlSb).sub.v (AlAs).sub.x (AlP).sub.y Al.sub.z.sup.(3)                                          AlSb & AlAs                                                                             Al(CH.sub.3).sub.3                                                    & AlP                                                         (BN).sub.u (AlN).sub.v (GaN).sub.x In.sub.y Sb.sub.z.sup.(4)                                    BN & AlN In(CH.sub.3).sub.3 & SbH.sub.3                                        & GaN                                                         (AlN).sub.v (GaN).sub.x (InN).sub.y Sb.sub.z.sup.(3)                                            AlN & GaN                                                                               SbH.sub.3                                                             & InN                                                         (GaN).sub.v (BN).sub.x (InN).sub.y Si.sub.z.sup.(3)                                             GaN & BN SiH.sub.4                                                             & InN                                                         (InN).sub.v (AlIn).sub.x (BN).sub.y Ge.sub. z.sup.(3)                                           InN & AlN                                                                               GeH.sub.4                                                             & Bn                                                          (BP).sub.u (InSb).sub.v (AlSb).sub.x As.sub.y.sup.(4)                                           BP & InSb                                                                               AsH.sub.3 & SbH.sub.3                                Sb.sub.z         & AlSb                                                        (AlP).sub.v (BP).sub.x (InP).sub.y Sb.sub.z.sup.(3)                                             AlP & BP SbH.sub.3                                                             & InP                                                         (AlSb).sub.u (AlP).sub.v (InAs).sub.x P.sub.y.sup.(4)                                           AlSb & AlP                                                                              PH.sub.3 & SbH.sub.3                                 Sb.sub.z         & InAs                                                        (InP).sub.v (AlAs).sub.x (InAs).sub.y Si.sub.z.sup.(3)                                          InP & AlAs                                                                              SiH.sub.4                                                             & InAs                                                        (AlAs).sub.v (InSb).sub.x (AlSb).sub.y Sb.sub.z.sup.(3)                                         AlAs & InSb                                                                             SbH.sub.3                                                             & AlSb                                                        (InAs).sub.v (AlSb).sub.x (AlAs).sub.y As.sub.z.sup.(3)                                         InAs & AlSb                                                                             AsH.sub.3                                                             & AlAs                                                        (AlSb).sub.v (InSb).sub.x (InP).sub.y Ge.sub.z.sup.(3)                                          AlSb & InSb                                                                             GeH.sub.4                                                             & InP                                                         (InSb).sub.u (BP).sub.v (AlP).sub.x Si.sub.y Ge.sub.z.sup.(4)                                   InSb & BP                                                                               SiH.sub.4 & GeH.sub.4                                                 & AlP                                                         __________________________________________________________________________      .sup.(1) Where x is a number greater than about 0.01 and x + (1-x) = 1         .sup.(2) Where x, y and z are numbers greater than about 0.01 and x + y +      z = 1                                                                          .sup.(3) Where v, x, y and z are numbers greater than about 0.01 and v +       + y + z = 1                                                                    .sup.(4) Where u, v, x, y and z are numbers greater than about 0.01 and u      + v + x + y + z = 1                                                            .sup.(5) Where t, u, v, x, y and z are numbers greater than about 0.01 an      t + u + v + x + y + z = 1                                                

Table II gives numerous examples of novel semiconductor compositions which can be made by the method of the present invention and establishes that the bounds of the novel compositions which can be made by the present invention cannot be properly stated except by the inventive method. Beyond the scope of the Table II and the invention are known and novel semiconductor and non-semiconductor compositions containing Group IIb-VIa and Group IVa--VIa semiconductors such as cadmium sulfide, cadmium selenide, zinc oxide, tin oxide lead. However, telluride can be used with present invention. Similarly elements from Group IIIa, IVa and Vaand IVb of the Periodic Table, include bismuth, lead and thallium, may be contained in novel compositions made by the present invention. It would seem that virtually any substantially homogeneous (or solid solution) two semiconductor composition that can or has been conceived can be prepared by the described method provided at least one of the components can be contained in a reactive gas and at least one of the components can be sputtered from a sputter target.

Table II does show that certain novel pseudo-binary semiconductor systems can be made by the present invention. Such novel binary semiconductor compositions have the formula: (A)₁ _(-x) (B)_(x), where A is a Group IIIa semiconductor compound selected from the group consisting of BN, AIN, GaN, InN, BP, AlP, GaP, InP, AlAs, GaAs, InAs, AlSb, GaSb and InSb, B is a Group IVa element selected from the group consisting of Si, Ge and Sn, and x is a number greater than about 0.01 and preferably greater than 0.05 where x + (1-x) = 1. Of these compositions the BP, AlP, GaP, InP, AlAs, GaAs, InAs, AlSb and GaSb compositions are of more interest because of their greater compatibility in lattice structure with the Group IVa elements, and (GaAs)₁ _(-x) Si_(x), (GaAs)₁ _(-x) Ge_(x), (InSb)₁ _(-x) Si_(x), (InSb)₁ _(-x) Ge_(x), (InAs)₁ _(-x) Si_(x) and (InAs)₁ _(-x) Ge_(x) are of greatest interest. GaAs-Si and GaAs-Ge systems were previously reported as essentially non-miscible systems. These novel compositions are, therefore, of great interest in making semiconductor devices requiring unique semiconductor parameters, particularly in epitaxial layers as the present invention provides.

Moreover, Table II shows that a broader class of novel compositions can be made to provide semiconductor devices in accordance with the present invention. These novel compositions have the general formula: (A₁)_(x).sbsb.1 (A₂)_(x).sbsb.2 . . . (A_(n))_(x).sbsb.n where A₁, A₂. . . A_(n) are each selected from the group consisting of Group IIIa-Va and IVa-IVa compounds BN, A1N, GaN, InN, BP, AlP, GaP, InP, AlAs, GaAs, InAs, AlSb, GaSb, InSb, and GeSi and Group IIIa, IVa and Va elements, and the A₁, A₂. . . A_(n) contain at least one of the Group IIIa-Va and IVa-IVa semiconductor compounds, at least one Group IVa element selected from Si and Ge, or at least one Group IIIa element and at least one Group Va element; where x₁, x₂ . . . x_(n) are all numbers greater than about 0.01 and preferably greater than 0.05 where x₁ + x₂ + . . . + x_(n) = 1; and where n is an integer greater than 2 other than 4 where A₁, A₂, A₃ and A₄ are all semiconductor compounds. The Group IIIa elements are boron (B), aluminum (Al), gallium (Ga), indium (In) and thallium (Tl); the Group IVa elements are carbon (C), silicon (Si), germanium (Ge), tin (Sn), and lead (Pb); and the Group Va elements are nitrogen (N), phosphorus (P), arsenic (As), antimony (Sb) and bismuth (Bi). In this connection, it should be noted (i) that partially soluble solutions of (A₁) (A₂) (A₃) (A₄) compositions where A₁, A₂, A₃ and A₄ are all IIIb-Vb compounds have been achieved by other means, see J. L. Richards, "Solubility Studies in Semiconductor Alloy Films", The Use of Thin Films in Physical Investigations, ed. J. C. Anderson (1966), p. 419 and (ii) that InBi, TlSb and TlBi are reported as metallic compositions, see O. Madelung, Physics of III-V Compounds, (1964), p. 8.

Of these novel compositions of the formula, the compositions where n is a digit and preferably less than 7 and more preferably n = 3 are of particular interest in making semiconductor devices. The ternary compositions are of greatest importance which have the general formula (A₁)_(x) (A₂)_(y) (A₃)_(z) where A₁, A₂ and A₃ are elements each selected from Group IIIa, IVa and Va elements each B, Al, Ga, In, Si, Ge, Sn, N, P, As and Sb where A₁, A₂ and A₃ contain at least one Group IVb element selected from Si and Ge or at least one Group IIIa and at least one Group Va element, and where x, y and z are each numbers greater than about 0.01 and preferably greater than 0.05 where x + y + z = 1. Of these ternaries, Ga_(x) As_(y) Si_(z), Ga_(x) As_(y) Ge_(z), Ga_(x) Sb_(y) Si_(z), Ga.sub. x Sb_(y) Ge_(z), Ga_(x) As_(y) Sb_(z), In_(x) Sb_(y) Si_(z), In_(x) Sb_(y) GE_(z), In_(x) Sb_(y) Ge_(z), In_(x) Sb_(y) As_(z), In_(x) As_(y) Si_(z) and In_(x) As_(y) Ge_(z) are of greatest interest.

With regard to all of these general formulas, it should be recognized that the composition of each of the components is greater than about 0.01 and preferably greater than 0.05. A composition with a lesser amount of a component acts as a different composition absent the component of lesser amount, or as a different composition doped with the component of lesser amount. For example, AsSiIn, where As and In are present in amounts of 10⁻ ¹² to 10.sup.⁻²⁰ atoms/cm³, is simply silicon compensation doped with arsenic and indium. In addition, it is apparent to one skilled in the art that where a semiconductor composition is desired, the components must be varied within the formula so that th semiconductor elements or semiconductor compounds dominate, or the IIIa-Va elements in proper balance dominate. And Sn is preferred in a crystal form where it is semiconducting. However, non-semiconductor compositions within the general formula may have utility, for example, in making integral sputter targets as hereinafter described.

Table II also establishes preferred operation for compounding with the present invention. Generally, sputtered species deposit in the layer on substrate unchanged, i.e. they retain their compound integrity, while gas species deposit in the layer in elemental form. Thus, compounds are typically deposited from the sputter target and elements deposited from the reactive gas to provide greater latitude in the operating conditions. To have the compound formed by the reaction of reactive gases, the concentration and partial pressure of the reactive gases and the substrate temperature require careful control to provide the desired compound in a homogeneous composition.

On the other hand, the difficulty in depositing from the sputter target is that (i) ionization sometimes causes disassociation of weakly bonded elements in a compound, and (ii) that, where two or more compositions are sputtered, physical separation of multiple sputter targets cause non-uniformity in the sputtered composition and in turn non-homogeneity in the deposited composition. Where the former difficulty arises, the compound is preferably deposited by electrical discharge reaction of reactive gases. Where the latter difficulty arises, a single integral sputter target containing a composition of two or more materials to be sputtered may be prepared by use of the present inventive method.

That is, an electrode suitable for a sputter target electrode may be disposed in the position of the substrate in FIG. 1. Two or more materials may be deposited on the electrode by the method above described to form on the electrode an integral sputter target of a substantially homogeneous composition containing the desired compounds desired to be deposited on the substrate. Thereafter, the electrode with the target composition thereon is positioned in the apparatus of FIG. 1 as the sputter electrode-sputter target assembly. The desired semiconductor compounds can thus be simultaneously sputtered from the single integral sputter target. Alternatively, a single target can be made with pie-shaped or checkerboard pieces of the different compounds to be sputtered; however, this type of target is generally more difficult and expensive than the above-described integral sputter target containing a substantially homogeneous composition of two or more materials to be sputtered.

It should also be noted in connection with Table II, as with Table I and the general operation of the apparatus of FIG. 1, that an additional gas may be required in mixture with the reactive gas to provide for the electrical discharge reaction. For example, hydrogen has (H₂) may be inserted to reduce SiCl₄ and In(CH₃)₃ and provide HCl and CH₄ as by-products. This can be simply done by addition of another vessel and valve connection to the mixing chamber in the apparatus of FIG. 1. Further, in connection with Table II, it should be noted that the target and reactive gas compositions listed are merely examples selected to illustrate various of the starting compositions and are not necessarily the most preferred starting materials to making the particular composition.

As previously noted, Table II shows that substantially homogeneous (or solid solution) compositions can be made by the inventive method of materials previously reported as "non-miscible". Specifically, the maximum solubility of Si in bulk GaAs is reported as approximately 0.5%. For this reason the system (GaAs).sub. 1_(-x) Si_(x) was investigated most fully.

Using the apparatus as described in FIG. 1, (GaAs)₁ _(-x) Si_(x) layers were epitaxially grown on single-crystal substrates of gallium arsenide. The apparatus was vaculated and back-filled with argon to 2 × 10⁻ ³ torr. After brief clean-up sputtering, the reactive gas, silane (SiH₄), was leaked into the chamber and the shutter pivoted to begin the deposition on the substrate. Applied to the sputter electrode was an RF potential of about 1,000 volts (i.e. about 1.3 watts/cm²) at a frequency of 13.56 MHz. The substrate was heated and maintained at a temperature between 560° and 600°C during the deposition. The layers thus made were examined to determine their composition.

X-ray diffraction was used to determine the lattice parameter, a_(o). Using the GaAs substrate as reference, values to within an accuracy of ± 0.01 A were easily obtained. The x-ray data confirmed for all compositions that only a single phase of a disordered zinc blend structure was present.

Compositions were determined from electron microprobe data. In this measurement raw intensity data are submitted to a standard computer program. A plot of lattice spacing, a_(o), versus composition in FIG. 3, shows conformity to Vegards's law of linear change of lattice parameter with composition. In the more easily miscible systems, such behavior is indicative of homogeneity in well-equilibrated systems.

Optical transmission measurements were made with a Cary spectrophotometer at wavelengths between 0.7 and 2.5 μm (1.76 and 0.49 eV). For the measurements, the compositons were constrained to flat surfaces of high purity silica blanks by a non-absorbing resin. The GaAs substrates were etched away using a bromine-methanol etch. Chemical attack of the solid solution films was imperceptible. The absorption coefficient, α, was determined from transmittance data for films of many compositions. Bandgaps, E_(g), were then determined by plotting α² vs (hν-E_(g)) or one-half vs (hν-E_(g). Straight line intercepts of the energy axis give E_(g). All compositons investigated (x < 0.55) showed direct transition behavior.

Referring to FIGS. 4 and 5, the change in bandgap energy with changes in percentage compositions of the known germanium-silicon and indium antimonide-idium arsenide compositions are shown. The curves show that the change in bandgap energy with changes in composition are not always linear. In the germanium-silicon system the bandgap enery continually increases but contains an inflection in the curve. In the indium antimonide-indium arsenide system a minimum of 0.10 eV is observed at 60 mole% indium antimonide

While presently preferred embodiments have been shown and described with particularity, it is distinctly understood that the invention may be other wise variously performed within the scope of the following claims. 

What is claimed is:
 1. A method of forming a solid semiconductor layer on a substrate comprising the steps of:A. forming at least one sputter target containing at least one component material selected from the group consisting of Group IIIa-Va and Group IVa-IVa compounds and Group IIIa, Group IVa, and Group Va elements for forming material to be deposited on the substrate; B. disposing each formed sputter target and a substrate prepared for deposition thereon in a spaced relation in a partial vacuum chamber; C. introducing into the vacuum chamber a gas mixture containing at least one reactive gas composition containing at least one element selected from the group consisting of Group IIIa, Group IVa and Group Va elements for forming material to be deposited such that the formed sputter target or targets introduced reactive gas composition or compositions are capable of forming all the materials to be deposited on the substrate; D. sputtering the component material from at least one said sputter target to deposit material on the substrate; and E. simultaneously with step D, electrically discharge reacting at least one said reactive gas composition to deposit material on the substrate, and forming on the substrate, with the material deposited by sputtering, said solid layer of semiconductor material.
 2. A method of forming a solid semiconductor layer on a substrate as set forth in claim 1 wherein:the deposition by both sputtering and electrical discharge reacting are performed by applying an RF potential across the substrate and at least one said sputter target.
 3. A method of forming a solid semiconductor layer on a substrate as set forth in claim 2 wherein;1 in the step of forming said sputter target each said component material is selected from the group consisting of boron, aluminum, gallium, indium, silicon, germanium, tin, boron nitride, aluminum nitride, gallium nitride, indium nitride, boron phosphide, aluminum phosphide, gallium phosphide, indium phosphide, aluminum arsenide, gallium arsenide, indium arsenide, aluminum antimonide, gallium antimonide and indium antimonide; 2 in the step of introducint said gas mixture each said element is selected from the group consisting of boron, aluminum, gallium, indium, silicon, germanium, tin, phosphorus, arsenic and antimonv.
 4. A method of forming a solid semiconductor layer on a substrate as set forth in claim 1 wherein:1. in the step of forming said sputter target each said component material is selected from the group consisting of boron, aluminum, gallium, indium, silicon, germanium, tin, boron nitride, aluminum nitride, gallium nitride, indium nitride, boron phosphide, aluminum phosphide, gallium phosphide, indium phosphide, aluminum arsenide, gallium arsenide, indium arsenide, aluminum antimonide, gallium antimonide and indium antimonide;
 2. in the step of introducint said gas mixture each said element is selected from the group consisting of boron, aluminum, gallium, silicon, germanium, tin, phosphorus, arsenic and antimony.
 5. A method for epitaxially growing a layer of semiconductor material comprising the steps of:A. forming at least one sputter target containing at least one component material selected from the group consisting of Group IIIa-Va and Group IVa--IVa compounds and Group IIIa, Group IVa and Group Va elements for forming semiconductor material to be grown; B. disposing each formed sputter target and a substrate prepared for deposition thereon in a spaced relation in a partial vacuum chamber; C. introducing into the Vacuum chamber a gas mixture containing at least one reactive gas composition containing at least one element selected from the group consisting of Group IIIa, Group IVa and Group Va elements for forming semiconductor material to be grown such that the formed sputter target or targets and introduced reactive gas composition or compositions are capable of forming all the semiconductor material desired in said layer of semiconductor material; D. sputtering the component material from at least one said target to deposit material on the substrate; and E. simultaneously with step D, electrically discharge reacting at least one said reactive gas composition to deposit material on the substrate, and epitaxially growing on the substrate, with material deposited by sputtering, said epitaxial layer of desired semiconductor material.
 6. A method for epitaxially growing a layer of semiconductor materials as set forth in claim 5 wherein:the deposition both by sputtering and electrical discharge reacting are performed by applying an RF potential across the substrate and at least one said sputter target.
 7. A method of epitaxially growing a substantially homogenous layer of semiconductor materials as set forth in claim 6 wherein:1. in the step of forming said sputter target each said component material is selected from the group consisting of boron, aluminum, gallium, indium, silicon, germanium, tin, boron nitride, aluminum nitride, gallium nitride, indium nitride, boron phosphide, aluminum phosphide, gallium phosphide, indium phosphide, aluminum arsenide, gallium arsenide, indium arsenide, aluminum antimonide, gallium antimonide and indium antimonide;
 2. in the step of introducing said gas mixture each said element is selected from the group consisting of boron, aluminum, gallium, indium, silicon, germanium, tin, phosphorus, arsenic and antimony.
 8. A method of epitaxially growing a substantially homogeneous layer of semiconductor materials as set forth in claim 5 wherein:1. in the step of forming said sputter target each said component material is selected from the group consisting of boron, aluminum, gallium, indium, silicon, germanium, tin, boron nitride, aluminum nitride, gallium nitride, indium nitride, boron phosphide, aluminum phosphide, gallium phosphide, indium phosphide, aluminum arsenide, gallium arsenide, indium arsenide, aluminum antimonide, gallium antimonide and indium antimonide;
 2. in the step of introducing said gas mixture each said element is selected from the group consisting of boron aluminum, gallium, indium, silicon, germanium, tin, phosphorus, arsenic and antimony.
 9. A method for forming a substantially homogeneous layer of semiconductor material comprising the steps of:A. forming at least one sputter target containing at least one first component selected from the group consisting of boron, aluminum, gallium, indium, silicon, germanium, boron nitride, aluminum nitride, gallium nitride, indium nitride, boron phosphide, aluminum phosphide, gallium phosphide, indium phosphide, aluminum arsenide, indium arsenide, aluminum antimonide, gallium antimonide, indium antimonide and silicon germanium for forming semiconductor material to be grown; B. disposing each formed sputter target and a substrate prepared for deposition thereon in a spaced relation in a partial vacuum chamber; C. introducing into the vacuum chamber a gas mixture containing at least one reactive gas composition containing at least one second component selected from the group consisting of boron, aluminum, gallium, indium, silicon, germanium, nitrogen, phosphorus, arsenic and antimony for forming semiconductor material to be grown such that the formed sputter target or targets and introduced reactive gas composition or compositions are capable of forming all the semiconductor materials to be deposited on the substrate; D. sputtering the first component from at least one said sputter target to deposit said first component on the substrate; and E. simultaneously with step D, electrically discharge reacting at least one said reactive gas to deposit said second component on the substrate and forming on the substrate, with said first component, said substantially homogeneous layer of semiconductor material.
 10. A method for forming a substantially homogeneous layer of semiconductor material as set forth in claim 9 comprising in addition:F. forming at least one second sputter target of a third component selected from the group consisting of boron, aluminum, gallium, indium, silicon, germanium, boron nitride, aluminum nitride, gallium nitride, indium nitride, boron phosphide, aluminum phosphide, gallium arsenide, indium arsenide, aluminum antimonide, gallium antimonide, indium antimonide and germanium silicon; G. disposing each second sputter target in the vacuum chamber in a spaced relation with the substrate; and H. simultaneously with the steps D and E, sputtering the third component from at least one said second sputter target to deposit said third component on the substrate and forming on the substrate, with said first and second component, said substantially homogeneous layer of semiconductor material.
 11. A method for forming a substantially homogeneous layer of semiconductor material as set forth in claim 9 wherein:the sputter target contains in addition a third component selected from the group consisting of boron, aluminum, gallium, indium, silicon, germanium, boron nitride, aluminum, gallium nitride, indium nitride, boron phosphide, aluminum phosphide, gallium phosphide, indium phosphide, aluminum arsenide, gallium arsenide, indium arsenide, aluminum antimonide, gallium antimonide, indium antimonide and silicon germanium; and comprises in addition: F. sputtering the third component simultaneously with the sputtering of the first component from at least one said sputter target to deposit said third component on the substrate and forming on the substrate, with the first and second components, said substantially homogeneous layer of semiconductor component material.
 12. A method for forming a substantially homogeneous layer of semiconductor material as set forth in claim 9 wherein:the gas mixture contains at least two reactive gas compositions that react in step E to form a volatile by-product gas and said second component that is a semiconductor material.
 13. A method for forming a substantially homogeneous layer of semiconductor material as set forth in claim 9 comprising in addition:F. introducing into the vacuum chamber in the gas mixture, with the reactive gas composition containing the second component that is a semiconductor material, a second reactive gas composition containing a third component that is semiconductor material; and G. simultaneously with steps D and E, electrically discharge reacting the second reactive gas to deposit the third component on the substrate and forming, on the substrate with the first and second component, said substantially homogeneous layer of semiconductor materials.
 14. A method for forming a substantially homogeneous layer of semiconductor material as set forth in claim 9 wherein:said first and second components are each semiconductor materials.
 15. A method of forming an integral sputter target of at least two semiconductor materials comprising the steps of:A. forming at least one sputter target containing at least one component material selected from the group consisting of Group IIIa-Va and Group IVa-IVa compounds and Group IIIa, Group IVa and Group Va elements for forming a material to form an integral sputter target; B. disposing each formed sputter target and an electrode for forming the integral sputter target thereon in a spaced relation in a partial vacuum chamber; C. introducing into the vacuum chamber a gas mixture containing at least one reactive gas composition containing at least one element selected from the group consisting of Group III, Group IVa and Group Va elements for forming a material to form an integral sputter target such that the formed sputter target or targets and introduced reactive gas composition or compositions are capable of forming all materials desired for an integral sputter target; D. sputtering the component material from at least one formed target to deposit material on said electrode; and E. simultaneously with step D, electrically discharge reacting with at least one reactive gas composition to deposit material on said electrode and forming on said electrode, with the material deposited by sputtering, the integral sputter target of said at least two semiconductor materials.
 16. A method of forming an integral sputter target of two semiconductor materials as set forth in claim 15 wherein:the depositions both by sputtering and electrical discharge reacting are performed by applying an RF potential across the substrate and at least one sputter target.
 17. A method of forming a solid semiconductor layer on a substrate comprising the steps of:A. forming at least one sputter target containing at least one component material selected from the group consisting of lead, tin, germanium, tellurium, selenium and compounds thereof; B. disposing each formed sputter target and a substrate proposed for deposition thereon in a spaced relation in a partial vacuum chamber; C. introducing into the vacuum chamber a gas mixture containing at least one reactive gas composition containing at least one element selected from the group consisting of lead, tin, germanium, tellurium and selenium such that the formed sputter target or targets, introduced reactive gas composition or compositions, or both include lead; D. sputtering the component material from at least one said sputter target to deposit material on the substrate; and E. simultaneously with step D, electrically discharge reacting at least one said reactive gas composition to deposit material on the substrate, and forming on the substrate, with the material deposited by sputtering, said solid semiconductor layer.
 18. A method of forming a solid semiconductor layer on the substrate as set forth in claim 17 wherein:the deposition by both sputtering and electrical discharge reacting are performed by applying an RF potential across the substrate and at least one sputter target.
 19. A method of forming a solid semiconductor layer on a substrate comprising the steps of:A. forming at least one sputter target containing at least one component material selected from the group consisting of mercury, cadmium, tellurium, selenium and compounds thereof; B. disposing each formed sputter target and a substrate proposed for deposition thereon in a spaced relation in a partial vacuum chamber; C. introducing into the vacuum chamber a gas mixture containing at least one reactive gas composition containing at least one element selected from the group consisting of mercury, cadmium, tellurium and selenium such that the formed sputter target or targets, introduced reactive gas composition or compositions, or both include mercury; D. sputtering the component material from at least one said sputter target to deposit material on the substrate; and E. simultaneously with step D, electrically discharge reacting at least one said reactive gas composition to deposit material on the substrate, and forming on the substrate, with the material deposited by sputtering, said solid semiconductor layer.
 20. A method of forming a solid semiconductor layer on the substrate as set forth in claim 19 wherein:the deposition by both sputtering and electrical discharge reacting are performed by applying an RF potential across the substrate and at least one sputter target. 